DRAMP_ID Sequence Hiden_Sequence Original_Sequence Sequence_Length Name Uniprot_Entry Family Source Activity Protein_Existence Secondary_Structure Structure_Description PDB_ID Comments Target_Organism Hemolytic_Activity Linear/Cyclic N_terminal_Modification C_terminal_Modification Special_Amino_Acid_and_Stapling_Position Stereochemistry Cytotoxicity Pubmed_ID Reference Author Title Specific_Type Nucleotide_Sequence Full_Sequence lfcMLE padj Workflow DRAMP21651 TLDPPYFLDPVSPNPMCHRP 20 SLAY-screened peptide P1 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTTGACCCTCCCTATTTTCTCGATCCTGTCAGCCCCAATCCCATGTGCCACCGTCCCTAA TLDPPYFLDPVSPNPMCHRP* -11.199 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21652 LQSPDLQHFQYLLLLSGSRGL 21 SLAY-screened peptide P2 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCAGAGCCCTGACTTACAGCATTTTCAATACTTATTACTGTTATCAGGGTCCCGGGGTCTA LQSPDLQHFQYLLLLSGSRGL -11.079 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21653 QRRH 4 SLAY-screened peptide P3 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCGCCGGCATTAGCTGCACACGAGTTCGCTGTCCCCCAGTCTGGGCAGTTTTTGGGCTTAA QRRH*LHTSSLSPSLGSFWA* -10.843 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21654 AGAAFNSCAR 10 SLAY-screened peptide P4 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGGGGCGGCTTTCAATTCCTGTGCCAGGTAGGATGACAACTTCTACATCTATTATGCGTAA AGAAFNSCAR*DDNFYIYYA* -10.83 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21655 SSHLPHHGCNRRFVDGPAPPQ 21 SLAY-screened peptide P5 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTCGCACCTTCCCCATCACGGTTGTAACCGCCGTTTTGTGGACGGCCCCGCCCCCCCCCAA SSHLPHHGCNRRFVDGPAPPQ -10.803 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21656 NATMLCLSDNFCNENFTHQA 20 SLAY-screened peptide P6 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGCTACTATGCTCTGCCTTTCCGATAATTTTTGCAACGAGAATTTTACGCATCAGGCCTAA NATMLCLSDNFCNENFTHQA* -10.8 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21657 GDS 3 SLAY-screened peptide P7 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGATAGCTAGTGTTTCAAGTATACTTATCCCTGGAATAATGACTACCACGTTAGCGCGTAA GDS*CFKYTYPWNNDYHVSA* -10.604 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21658 IHPLSFR 7 SLAY-screened peptide P8 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCATCCCCTCTCCTTTCGTTAGTATCGCAACGTTCGGACCATTAATTCGTCCGCTGTGTAA IHPLSFR*YRNVRTINSSAV* -10.57 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21659 WYVFSLAVAPVNNTNRDGSP 20 SLAY-screened peptide P9 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTACGTCTTCAGTCTCGCCGTCGCGCCTGTTAACAATACGAATCGCGATGGGTCCCCTTAA WYVFSLAVAPVNNTNRDGSP* -10.462 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21660 PSNAVMPINARYKSGYSPAS 20 SLAY-screened peptide P10 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCAATGCTGTTATGCCCATTAATGCCCGCTACAAGAGCGGTTATTCGCCTGCCTCTTAA PSNAVMPINARYKSGYSPAS* -10.364 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21661 NNLYHTHGNCYKDTNINFEN 20 SLAY-screened peptide P11 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATAATCTCTACCACACTCATGGGAATTGCTACAAGGACACCAATATTAATTTTGAGAACTAA NNLYHTHGNCYKDTNINFEN* -10.274 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21662 HLLPVISI 8 SLAY-screened peptide P12 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTGCTCCCCGTCATCTCTATCTAGCATCAGGTCGTCTCCGTGGGTCATGACGCGCTGTAA HLLPVISI*HQVVSVGHDAL* -10.157 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21663 LTASRAPGSLPTVWLPIVLLN 21 SLAY-screened peptide P13 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACTGCGTCTCGAGCACCGGGGTCATTACCAACTGTTTGGCTCCCTATAGTACTACTTAAC LTASRAPGSLPTVWLPIVLLN -10.141 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21664 IG 2 SLAY-screened peptide P14 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGGTTAGGGTGACCTTTACATCACTGAGACTTAGGATTATAATAGTAGTCTTTTTGATTAA IG*GDLYITET*DYNSSLFD* -10.056 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21665 APMGYSSVASSMSTSSYFID 20 SLAY-screened peptide P15 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCCATGGGTTATTCTTCTGTCGCGTCTAGCATGTCTACTTCTTCTTACTTTATTGACTAA APMGYSSVASSMSTSSYFID* -10.041 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21666 RPRLSGIMTYYVSTWISYIC 20 SLAY-screened peptide P16 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCCCGTCTTAGCGGGATCATGACCTATTACGTTTCCACTTGGATCAGCTACATTTGTTAA RPRLSGIMTYYVSTWISYIC* -10.03 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21667 LSGERRHTVGVQTMHSDHME 20 SLAY-screened peptide P17 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCTGGTGAGAGGAGGCACACTGTCGGTGTCCAGACCATGCATTCTGATCATATGGAGTAA LSGERRHTVGVQTMHSDHME* -9.883 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21668 QSKPDATQPYVHYCKRRLLR 20 SLAY-screened peptide P18 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTCCAAGCCTGACGCTACTCAGCCTTATGTCCATTACTGCAAGCGTCGTCTCCTGCGTTAA QSKPDATQPYVHYCKRRLLR* -9.861 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21669 PCATALIPSPRQDSRTL 17 SLAY-screened peptide P19 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCGCTACGGCCCTCATTCCTTCGCCTCGGCAGGATTCCCGGACCCTGTAGATTAAGTAA PCATALIPSPRQDSRTL*IK* -9.719 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21670 GCLNFSVPVDRPVSPAKTAW 20 SLAY-screened peptide P20 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTGTCTGAACTTTTCTGTCCCCGTGGACCGGCCTGTGTCGCCTGCCAAGACGGCCTGGTAA GCLNFSVPVDRPVSPAKTAW* -9.619 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21671 RVVILMLS 8 SLAY-screened peptide P21 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGTCGTCATCTTGATGTTGTCCTAGAATGCTTGTCATCAGTTGCATCTGACGATTTCTTAA RVVILMLS*NACHQLHLTIS* -9.558 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21672 FRCPPFKFSCLALAFTDYNN 20 SLAY-screened peptide P22 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCGGTGCCCGCCGTTTAAGTTCTCCTGTCTTGCCCTTGCTTTTACGGATTATAACAATTAA FRCPPFKFSCLALAFTDYNN* -9.504 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21673 PVRCVTPTSPCAPNPHYHDQ 20 SLAY-screened peptide P23 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTGCGTTGTGTCACGCCTACTTCTCCGTGTGCTCCTAATCCTCACTACCATGATCAGTAA PVRCVTPTSPCAPNPHYHDQ* -9.45 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21674 YAFFINNDCFYYCSLGPCASN 21 SLAY-screened peptide P24 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGCCTTTTTTATCAATAATGATTGTTTTTATTATTGTTCTTTAGGCCCATGTGCATCTAAC YAFFINNDCFYYCSLGPCASN -9.396 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21675 PLAPIVQTYS 10 SLAY-screened peptide P25 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTTGCCCCGATTGTTCAGACGTACTCTTAGAGCACTAATCTGTATCGCGGTTATTGCTAA PLAPIVQTYS*STNLYRGYC* -9.352 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21676 SWHWLSSNHIATVSVETYSH 20 SLAY-screened peptide P26 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGGCACTGGCTTTCTTCTAATCATATCGCGACCGTGAGCGTTGAGACCTACTCCCACTAA SWHWLSSNHIATVSVETYSH* -9.321 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21677 TLSVFFCIHPPPCSVSTSPY 20 SLAY-screened peptide P27 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTCTCCGTCTTTTTCTGCATCCACCCCCCCCCCTGTAGTGTCTCTACGTCTCCGTATTAA TLSVFFCIHPPPCSVSTSPY* -9.161 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21678 YLLARLALQTFFSHGFYTFP 20 SLAY-screened peptide P28 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTGCTCGCTCGGCTCGCCCTGCAGACGTTTTTCAGTCACGGTTTCTATACTTTTCCTTAA YLLARLALQTFFSHGFYTFP* -9.158 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21679 LTLLICPDDTFYKAK 15 SLAY-screened peptide P29 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACCTTGCTTATTTGCCCCGATGATACTTTTTATAAGGCGAAGTAGGCCTCTCCTTTTTAA LTLLICPDDTFYKAK*ASPF* -9.154 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21680 NLFPSHSATFRH 12 SLAY-screened peptide P30 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTTGTTCCCGAGCCATTCTGCCACCTTTCGGCATTAGGATTATATTCTGCGTTTTCGTTAA NLFPSHSATFRH*DYILRFR* -9.146 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21681 TSDYILVQFYFS 12 SLAY-screened peptide P31 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCTGATTACATTTTGGTTCAGTTTTATTTTTCTTAGACGCTCACCCACCTCAACTGTTAA TSDYILVQFYFS*TLTHLNC* -9.104 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21682 PCISQSNDVCPSRESLPLCI 20 SLAY-screened peptide P32 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGTATCAGCCAGTCGAACGACGTCTGCCCGTCGCGTGAGTCTTTGCCTCTGTGTATTTAA PCISQSNDVCPSRESLPLCI* -9.092 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21683 GHAHPCTNFIYDINLNPPPPP 21 SLAY-screened peptide P33 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCACGCCCACCCTTGCACGAACTTTATCTACGACATTAACCTGAACCCCCCCCCCCCCCCC GHAHPCTNFIYDINLNPPPPP -8.993 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21684 YASHCPCRTICYHVSP 16 SLAY-screened peptide P34 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGCCTCCCACTGCCCCTGTCGCACCATTTGTTATCACGTTTCGCCGTAGTACTCCAGGTAA YASHCPCRTICYHVSP*YSR* -8.968 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21685 SKCSITTRRQYAHPRSAV 18 SLAY-screened peptide P35 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAAGTGCAGTATCACTACCAGGAGGCAGTACGCGCACCCTCGTAGTGCGGTTTAGAATTAA SKCSITTRRQYAHPRSAV*N* -8.946 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21686 TREATPCARIRSDSFGTT 18 SLAY-screened peptide P36 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCGTGAGGCGACTCCCTGCGCGCGTATTCGCTCCGACTCTTTTGGGACGACCTAGCCCTAA TREATPCARIRSDSFGTT*P* -8.937 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21687 TPMDRSLCHNHTL 13 SLAY-screened peptide P37 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCTATGGATCGTAGCCTCTGTCATAACCATACGCTTTAGATGGCGCAGGATAGTCATTAA TPMDRSLCHNHTL*MAQDSH* -8.916 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21688 SVRSSAPLMRVIGNCPSNHH 20 SLAY-screened peptide P38 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGTGCGTTCTAGCGCGCCTCTTATGCGTGTGATCGGCAATTGCCCGAGTAATCACCACTAA SVRSSAPLMRVIGNCPSNHH* -8.863 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21689 LLYEVDPAT 9 SLAY-screened peptide P39 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTTTACGAGGTCGACCCTGCCACTTAGTTCCATTCCCCCCCCCCCGCCCCCCCCCCCCCT LLYEVDPAT*FHSPPPAPPPP -8.836 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21690 SGSSPRNTQTP 11 SLAY-screened peptide P40 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGGGTCGTCGCCGCGGAATACGCAGACGCCCTAGGATTATTGCACTATGGTTCACACGTAA SGSSPRNTQTP*DYCTMVHT* -8.805 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21691 ANPAYKFKTCILCL 14 SLAY-screened peptide P41 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAATCCTGCTTATAAGTTTAAAACATGTATACTATGTCTGTGAGGGGGTTCGACAACTAAC ANPAYKFKTCILCL*GGSTTN -8.804 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21692 HTSNEDKTVYPVHSECIFDY 20 SLAY-screened peptide P42 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACCAGTAATGAGGATAAGACCGTGTATCCGGTTCACTCTGAGTGTATTTTTGACTATTAA HTSNEDKTVYPVHSECIFDY* -8.804 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21693 LYAEVGRLLIDLGAT 15 SLAY-screened peptide P43 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTACGCGGAGGTGGGGCGTCTCCTGATCGACCTTGGGGCCACCTAACTGAGTAAGTCGACC LYAEVGRLLIDLGAT*LSKST -8.765 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21694 RLDLASPFDIGIEGLSPANL 20 SLAY-screened peptide P44 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTCGATCTCGCTTCGCCTTTTGATATTGGTATTGAGGGTCTCTCCCCGGCTAACCTTTAA RLDLASPFDIGIEGLSPANL* -8.762 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21695 FYVPLRSSQPQPPISCRHTP 20 SLAY-screened peptide P45 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTACGTTCCCCTCCGGAGCTCCCAGCCTCAGCCCCCCATTTCCTGCCGCCACACCCCCTAA FYVPLRSSQPQPPISCRHTP* -8.749 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21696 LLVSSPSMRPIAVTPSGPAPN 21 SLAY-screened peptide P46 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTCGTCAGTTCTCCCTCCATGCGCCCGATAGCAGTAACCCCCTCGGGTCCTGCCCCTAAC LLVSSPSMRPIAVTPSGPAPN -8.745 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21697 THHMTGGVSWRGAPSLPYVN 20 SLAY-screened peptide P47 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCACCACATGACCGGCGGTGTCAGTTGGAGGGGGGCCCCCAGCCTCCCTTATGTCAATTAA THHMTGGVSWRGAPSLPYVN* -8.737 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21698 THHMTGGVSWRGAPSLPYVN 20 SLAY-screened peptide P48 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCATCACATGACCGGCGGTGTCAGTTGGAGGGGGGCCCCCAGCCTCCCTTATGTCAATTAA THHMTGGVSWRGAPSLPYVN* -8.737 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21699 AYRRLPLHARSPTVRVNLET 20 SLAY-screened peptide P49 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTACCGCCGTTTGCCCCTTCATGCTCGTTCTCCCACTGTTCGCGTTAATCTGGAGACGTAA AYRRLPLHARSPTVRVNLET* -8.731 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21700 SPDFLRCSHTSRFVAYLLLS 20 SLAY-screened peptide P50 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCGGATTTCCTGCGGTGCAGTCATACGTCTCGCTTTGTCGCCTATTTGTTGCTCTCGTAA SPDFLRCSHTSRFVAYLLLS* -8.723 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21701 EYPCILTQTAVNNSNSDTVY 20 SLAY-screened peptide P51 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGTACCCCTGCATTCTGACCCAGACTGCTGTTAACAACTCGAATTCCGATACGGTGTATTAA EYPCILTQTAVNNSNSDTVY* -8.716 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21702 RPSIAPRFSPIGSDNMLISF 20 SLAY-screened peptide P52 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCGTCTATTGCCCCTCGTTTTAGTCCTATCGGTAGTGACAATATGCTCATTTCTTTTTAA RPSIAPRFSPIGSDNMLISF* -8.714 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21703 CTGYHKLNARDTVNSDISSS 20 SLAY-screened peptide P53 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACCGGCTACCATAAGCTTAATGCCAGGGACACTGTTAATTCCGATATTTCGTCCAGTTAA CTGYHKLNARDTVNSDISSS* -8.684 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21704 IRVSNQSGLYGCPITLDWRL 20 SLAY-screened peptide P54 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCGTGTTTCTAATCAGTCCGGCCTTTACGGTTGTCCTATCACTCTCGATTGGCGCCTGTAA IRVSNQSGLYGCPITLDWRL* -8.667 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21705 DYRCGTRRFTIWAHLLGI 18 SLAY-screened peptide P55 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTACCGTTGTGGTACTCGTCGGTTTACGATTTGGGCTCATCTCTTGGGCATTTAGGTTTAA DYRCGTRRFTIWAHLLGI*V* -8.653 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21706 TGADGAHSCLITHYTENYGN 20 SLAY-screened peptide P56 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGGGCGGACGGCGCTCACAGCTGCTTGATTACGCACTATACTGAGAATTATGGCAATTAA TGADGAHSCLITHYTENYGN* -8.641 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21707 IVLGAIHHYSSPSALSRVLQ 20 SLAY-screened peptide P57 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGTCCTTGGCGCGATTCATCATTATTCTTCTCCTTCTGCTCTGTCTCGCGTCCTCCAGTAA IVLGAIHHYSSPSALSRVLQ* -8.636 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21708 ANLLIWLGLYLSHQNRRVDD 20 SLAY-screened peptide P58 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTAACCTCCTGATTTGGCTCGGGTTGTATCTTTCCCACCAGAATAGGCGGGTCGACGATTAA ANLLIWLGLYLSHQNRRVDD* -8.62 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21709 LDPSYIFLDSSPMLRAESIN 20 SLAY-screened peptide P59 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGGATCCTTCTTATATCTTTCTCGACTCGTCGCCGATGCTTCGGGCGGAGAGCATTAACTAA LDPSYIFLDSSPMLRAESIN* -8.59 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21710 GNHLACLGVRLIRGFNLHHL 20 SLAY-screened peptide P60 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCAATCATCTGGCTTGCTTGGGTGTTCGCCTTATTCGTGGCTTTAACCTGCATCATTTGTAA GNHLACLGVRLIRGFNLHHL* -8.552 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21711 HGVHHLNDHLSFLTLNLSLH 20 SLAY-screened peptide P61 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGGCGTTCATCACCTTAACGATCACTTGTCGTTTCTGACCCTTAATCTTTCCCTTCATTAA HGVHHLNDHLSFLTLNLSLH* -8.52 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21712 IRSCLRTVRLLVTTHYYHRE 20 SLAY-screened peptide P62 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCGTTCTTGTCTCCGTACGGTTCGTCTCCTTGTCACTACGCATTATTATCATCGCGAGTAA IRSCLRTVRLLVTTHYYHRE* -8.497 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21713 YDLDRGCAYNLLVYAERYYQ 20 SLAY-screened peptide P63 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGACTTGGATCGGGGTTGTGCTTATAATCTCCTTGTCTATGCGGAGCGTTACTATCAGTAA YDLDRGCAYNLLVYAERYYQ* -8.477 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21714 RNLHLTASPVRVPRHRPINS 20 SLAY-screened peptide P64 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAACCTTCATCTCACGGCGTCCCCGGTGCGTGTCCCGAGGCATCGTCCGATCAATAGTTAA RNLHLTASPVRVPRHRPINS* -8.421 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21715 RSSFHRIIYFIENHHIKNAI 20 SLAY-screened peptide P65 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTCTAGCTTTCATCGCATTATTTACTTCATTGAGAATCATCATATCAAGAACGCGATCTAA RSSFHRIIYFIENHHIKNAI* -8.419 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21716 QLTMNNPRMPSSA 13 SLAY-screened peptide P66 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCTTACTATGAACAACCCTCGTATGCCGTCTTCTGCTTGAAAAAAAAAAAACGCCATTTAA QLTMNNPRMPSSA*KKKNAI* -8.411 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21717 RCPHISASYVVLPGVIHSTT 20 SLAY-screened peptide P67 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTGCCCCCACATTAGTGCCAGCTATGTTGTTCTTCCCGGTGTTATCCATTCGACGACCTAA RCPHISASYVVLPGVIHSTT* -8.4 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21718 RRVRHRILSDIRVAHYRRWP 20 SLAY-screened peptide P68 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCGCGTCCGCCATCGTATCCTTAGTGACATCCGCGTGGCGCATTATAGGAGGTGGCCGTAA RRVRHRILSDIRVAHYRRWP* -8.381 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21719 TRTSSQTVAGNPRYNNSERS 20 SLAY-screened peptide P69 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCGCACTTCGTCTCAGACCGTTGCTGGTAATCCCAGGTACAATAATTCTGAGCGGTCCTAA TRTSSQTVAGNPRYNNSERS* -8.38 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21720 ALAYFHRVCA 10 SLAY-screened peptide P70 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCTGGCGTATTTCCATCGGGTTTGCGCTTAGGATCAGAGTGTCGTGTGCGTCACTTGGTAA ALAYFHRVCA*DQSVVCVTW* -8.365 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21721 SHNPHIRGPIQRSRKRPRRT 20 SLAY-screened peptide P71 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCATAACCCTCATATTCGGGGCCCCATCCAGAGGTCTCGTAAGCGTCCTAGGAGGACCTAA SHNPHIRGPIQRSRKRPRRT* -8.345 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21722 RSPCAPYAPPPLTFFRTVSA 20 SLAY-screened peptide P72 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAGTCCTTGCGCGCCGTACGCCCCCCCCCCTCTTACTTTCTTCCGTACCGTCAGTGCTTAA RSPCAPYAPPPLTFFRTVSA* -8.329 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21723 CTPAPPGIPCCSAYTFYYNR 20 SLAY-screened peptide P73 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACCCCGGCGCCCCCTGGGATTCCTTGTTGTTCGGCTTACACTTTTTATTATAATCGCTAA CTPAPPGIPCCSAYTFYYNR* -8.325 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21724 STVQYHWNNSPFDSHARRTI 20 SLAY-screened peptide P74 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACCGTCCAGTATCATTGGAATAATAGTCCTTTTGACAGTCATGCTCGCCGGACGATCTAA STVQYHWNNSPFDSHARRTI* -8.161 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21725 LTFHCHHNNDCNFNYLSSTL 20 SLAY-screened peptide P75 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACCTTTCATTGCCATCATAATAATGATTGTAATTTCAATTATCTGAGCAGTACTCTGTAA LTFHCHHNNDCNFNYLSSTL* -8.127 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21726 PKHSYSNVLA 10 SLAY-screened peptide P76 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAAGCATAGTTACAGTAACGTTTTGGCTTAGTATGACAACCTGGGTTACACTAGTAATTAA PKHSYSNVLA*YDNLGYTSN* -8.121 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21727 SSNYRQSECYDTSSFTYVLI 20 SLAY-screened peptide P77 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCTAATTATCGCCAGTCGGAGTGTTACGATACCTCTTCCTTTACGTACGTCCTTATTTAA SSNYRQSECYDTSSFTYVLI* -8.093 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21728 IGDVMATVATLINASSLYFP 20 SLAY-screened peptide P78 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGGCGACGTTATGGCTACTGTTGCTACTCTTATTAATGCTTCTAGCCTTTACTTTCCTTAA IGDVMATVATLINASSLYFP* -8.09 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21729 NVILRNSGLHASICSPPPPPP 21 SLAY-screened peptide P79 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGTCATCCTGCGCAACAGCGGGCTCCACGCTAGCATCTGTTCCCCCCCCCCCCCCCCCCCC NVILRNSGLHASICSPPPPPP -8.039 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21730 VASVFNCRNCLSYSNPNDTP 20 SLAY-screened peptide P80 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGCGTCTGTGTTCAATTGCCGTAATTGTCTTTCTTATTCGAATCCTAATGACACTCCTTAA VASVFNCRNCLSYSNPNDTP* -6.795 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21731 TASHSSSQYPKT 12 SLAY-screened peptide P81 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCGAGTCATAGTTCGTCTCAGTATCCTAAGACGTAGGTCTAGACTCTGACTATTTCTTAA TASHSSSQYPKT*V*TLTIS* -6.774 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21732 LWNWDCFCFLRYHFGKRTTN 20 SLAY-screened peptide P82 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTGGAACTGGGATTGTTTCTGTTTCCTTCGTTATCACTTTGGGAAGCGTACCACTAATTAA LWNWDCFCFLRYHFGKRTTN* -6.704 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21733 PLLHIFNSTAMYIY 14 SLAY-screened peptide P83 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCCTGCATATTTTTAATTCTACCGCTATGTATATTTATTAGATCAACGCGCACAATTAA PLLHIFNSTAMYIY*INAHN* -6.629 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21734 PYGASTANIDFLDVFIYNTT 20 SLAY-screened peptide P84 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTACGGGGCGAGCACTGCGAATATTGATTTTCTGGATGTGTTTATCTACAATACGACGTAA PYGASTANIDFLDVFIYNTT* -6.558 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21735 SS 2 SLAY-screened peptide P85 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTCTTAGACTTTTGTTTCTATCTGCTCTACGATGTACTCCGACTTCTGCACTTATGCCTAA SS*TFVSICSTMYSDFCTYA* -6.536 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21736 TK 2 SLAY-screened peptide P86 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAAGTAGCATAATAAGGCGGTCAATTATAAGCGTTCTGTGTCTATTGAGACTGATTTTTAA TK*HNKAVNYKRSVSIETDF* -6.471 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21737 STLCIQSRPSNTSCIHLAKN 20 SLAY-screened peptide P87 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGACGCTGTGTATTCAGTCTCGTCCTTCGAATACCTCCTGTATCCACCTTGCGAAGAACTAA STLCIQSRPSNTSCIHLAKN* -6.43 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21738 TIRLHVSIRIYLWRRRMVSA 20 SLAY-screened peptide P88 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTATCCGGTTGCATGTCAGCATCCGCATTTACCTTTGGAGGCGCCGCATGGTGTCTGCGTAA TIRLHVSIRIYLWRRRMVSA* -6.219 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21739 TQLYHTWH 8 SLAY-screened peptide P89 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCAGCTGTATCATACGTGGCACTAGACGAATAATGAGACTATTCCTAACTATAATGCGTAA TQLYHTWH*TNNETIPNYNA* -6.152 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21740 LPLKASQH 8 SLAY-screened peptide P90 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCGCTTAAGGCTAGCCAGCACTAGAACGTGTGTCGTACTCAGACTGGTAATAATGCTTAA LPLKASQH*NVCRTQTGNNA* -5.974 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21741 CALIIIFFYVRVCVRVSLTC 20 SLAY-screened peptide P91 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCTTTGATCATTATTTTTTTCTACGTTCGGGTTTGCGTGCGTGTGAGTCTGACGTGCTAA CALIIIFFYVRVCVRVSLTC* -5.958 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21742 YGRSHATPNSDVSSMSPITA 20 SLAY-screened peptide P92 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGGTAGGTCTCATGCTACTCCTAATAGTGACGTGTCTAGCATGAGTCCGATCACTGCCTAA YGRSHATPNSDVSSMSPITA* -5.944 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21743 RLAHFPNHAVCDPHIINKPL 20 SLAY-screened peptide P93 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCTCGCTCACTTTCCGAATCATGCTGTCTGCGATCCTCATATTATCAATAAGCCGCTTTAA RLAHFPNHAVCDPHIINKPL* -5.777 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21744 RLGHDSNPWHIFRYNNNIPI 20 SLAY-screened peptide P94 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTGGGTCATGATAGCAACCCTTGGCATATTTTCCGTTATAATAACAATATCCCCATTTAA RLGHDSNPWHIFRYNNNIPI* -5.759 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21745 RYHTHYC 7 SLAY-screened peptide P95 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTACCACACGCACTACTGCTAGGCTACGAATAATTATTTTAATGACGATTATTTTGCCTAA RYHTHYC*ATNNYFNDDYFA* -5.733 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21746 LQLSPRYVSRSYDCPTPLTT 20 SLAY-screened peptide P96 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCAGCTTAGCCCTCGTTATGTTTCGCGCAGTTATGATTGCCCTACTCCTCTCACTACTTAA LQLSPRYVSRSYDCPTPLTT* -5.69 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21747 RRCPPSSFAGHDPHRPIY 18 SLAY-screened peptide P97 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCGGTGCCCTCCTTCTTCGTTTGCTGGTCATGACCCTCATAGGCCTATTTATTAGATCTAA RRCPPSSFAGHDPHRPIY*I* -5.652 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21748 SSWAGHTRCGRCHPRYCYVT 20 SLAY-screened peptide P98 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTCTTGGGCTGGCCATACTCGCTGTGGCCGTTGCCATCCTAGGTACTGTTATGTCACTTAA SSWAGHTRCGRCHPRYCYVT* -5.625 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21749 LYCNHHTTLRCPKITVQNTR 20 SLAY-screened peptide P99 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTACTGTAATCATCACACTACGCTGCGTTGTCCTAAGATTACGGTCCAGAATACCAGGTAA LYCNHHTTLRCPKITVQNTR* -5.55 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21750 GHCSQIRFTACPIHALCNGT 20 SLAY-screened peptide P100 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCATTGTTCTCAGATTCGTTTTACGGCTTGCCCTATCCATGCGCTGTGCAACGGTACTTAA GHCSQIRFTACPIHALCNGT* -5.494 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21751 LYMFNSTMSNVAYEFI 16 SLAY-screened peptide P101 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTATATGTTCAATAGTACTATGTCTAATGTCGCTTATGAGTTCATCTAGCCGAAGCCTTAA LYMFNSTMSNVAYEFI*PKP* -5.475 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21752 YVTASNLYFVNCFTMFVMAK 20 SLAY-screened peptide P102 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGTTACTGCGTCCAATCTGTATTTTGTCAATTGCTTTACTATGTTCGTTATGGCTAAGTAA YVTASNLYFVNCFTMFVMAK* -5.442 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21753 RRDCNIESHYLRTPRS 16 SLAY-screened peptide P103 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGTGATTGTAATATTGAGTCTCACTATCTGCGGACGCCTCGTTCGTAACTGAGTAAGTCG RRDCNIESHYLRTPRS*LSKS -5.421 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21754 GSLTSIDRCELDHVGYIHYK 20 SLAY-screened peptide P104 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCAGTCTTACTAGTATTGATCGGTGCGAGCTGGACCATGTTGGTTATATCCATTACAAGTAA GSLTSIDRCELDHVGYIHYK* -5.395 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21755 FVTQYSPFLGYFAPTRCSVP 20 SLAY-screened peptide P105 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGTCACTCAGTACAGCCCTTTTCTTGGCTATTTTGCTCCTACGCGTTGTTCCGTTCCGTAA FVTQYSPFLGYFAPTRCSVP* -5.357 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21756 IVFSGHDLQTDYLNNRIHLV 20 SLAY-screened peptide P106 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGTGTTTTCGGGGCACGATCTGCAGACTGACTATCTTAATAACAGGATCCACCTGGTGTAA IVFSGHDLQTDYLNNRIHLV* -5.343 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21757 PSFPSIYIRLSRIRHRHRRG 20 SLAY-screened peptide P107 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCCTTTCCGTCTATCTACATTCGTCTCTCCCGCATCCGTCACCGGCATCGTCGTGGCTAA PSFPSIYIRLSRIRHRHRRG* -5.325 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21758 ADSQHAPP 8 SLAY-screened peptide P108 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGACTCGCAGCACGCCCCTCCTTAGAATCACTATAAGTTTTATGATATTAGCGAGCCCTAA ADSQHAPP*NHYKFYDISEP* -5.287 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21759 YPYDRLSNVFDSLHYYCIQT 20 SLAY-screened peptide P109 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCCTTATGATCGCTTGTCTAACGTGTTCGATAGCCTTCATTATTATTGTATTCAGACCTAA YPYDRLSNVFDSLHYYCIQT* -5.205 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21760 PQLFTNHTPDSSYGIILAL 19 SLAY-screened peptide P110 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCAGCTGTTTACCAATCACACTCCTGATTCTAGCTATGGCATTATTCTTGCTTTGTAGTAA PQLFTNHTPDSSYGIILAL** -5.112 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21761 ERAPSYHTRSSSDSSNSGET 20 SLAY-screened peptide P111 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCGTGCTCCTAGTTATCATACTCGGAGCTCGAGTGACTCGAGCAATAGCGGTGAGACCTAA ERAPSYHTRSSSDSSNSGET* -5.096 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21762 TLVHNDSLSAQEPPPLSQ 18 SLAY-screened peptide P112 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTTGTGCATAATGATAGTTTGTCTGCTCAGGAGCCGCCGCCTCTGTCTCAGTAGGCTTAA TLVHNDSLSAQEPPPLSQ*A* -5.093 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21763 SHNCIHYP 8 SLAY-screened peptide P113 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCACAATTGTATTCACTATCCTTAGATGGATTTGTAGAACATGGCTCTGAAGAATGGGTAA SHNCIHYP*MDL*NMALKNG* -5.025 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21764 CPVQQSTYDKCSQPYRDTQH 20 SLAY-screened peptide P114 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCGGTTCAGCAGAGCACTTACGATAAGTGTTCTCAGCCTTACCGTGATACTCAGCATTAA CPVQQSTYDKCSQPYRDTQH* -4.993 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21765 RPYPPNFRRTPTQLPHLLVS 20 SLAY-screened peptide P115 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCCTATCCGCCGAACTTCAGGCGTACTCCCACCCAGCTTCCGCATCTTCTGGTCTCTTAA RPYPPNFRRTPTQLPHLLVS* -4.902 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21766 KRELT 5 SLAY-screened peptide P116 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCGCGAGTTGACTTAGATGCAGGCCCCTAAGCCTTTTATTTTTTTTGCGAATCACTGCTAA KRELT*MQAPKPFIFFANHC* -4.755 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21767 FDNTRMFCTIDIYNTDLHMH 20 SLAY-screened peptide P117 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGATAACACCCGTATGTTCTGTACCATTGATATCTATAACACTGATTTGCATATGCATTAA FDNTRMFCTIDIYNTDLHMH* -4.737 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21768 DDPIVFVSRTNVLPHY 16 SLAY-screened peptide P118 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGACCCTATTGTTTTCGTCTCTCGTACGAATGTGTTGCCGCACTATTAGCATGCGGCGTAA DDPIVFVSRTNVLPHY*HAA* -4.637 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21769 TPNVYHNGDGRVPLHCSLSL 20 SLAY-screened peptide P119 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCCGAACGTTTATCACAATGGCGACGGTCGTGTGCCTCTTCATTGCAGTCTGTCGCTCTAA TPNVYHNGDGRVPLHCSLSL* -4.628 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21770 RFRGHHNVNSWFVIFSHHHD 20 SLAY-screened peptide P120 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTTTCGGGGTCACCATAATGTTAATTCTTGGTTTGTCATTTTTTCTCATCACCATGATTAA RFRGHHNVNSWFVIFSHHHD* -4.61 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21771 PT 2 SLAY-screened peptide P121 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACCTAGCTGGTTTGGAGTGAGTATTTGCGTCTCTATCACGTTATTCTTTTTGCTCTTTAA PT*LVWSEYLRLYHVILFAL* -4.604 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21772 RTEVLPYRNTQSGIPNYEFS 20 SLAY-screened peptide P122 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGACTGAGGTTCTCCCTTACCGTAATACGCAGTCTGGTATTCCGAATTATGAGTTTAGTTAA RTEVLPYRNTQSGIPNYEFS* -4.593 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21773 ADMLLHRSNSNEHDHCAILL 20 SLAY-screened peptide P123 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGACATGCTGTTGCATCGGTCGAACAGTAACGAGCATGATCATTGTGCGATTTTGCTCTAA ADMLLHRSNSNEHDHCAILL* -4.587 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21774 VPLAVASEPGPTLNGPPRAT 20 SLAY-screened peptide P124 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCCCTCGCCGTCGCTAGCGAGCCTGGCCCCACTTTGAACGGCCCTCCCCGGGCCACTTAA VPLAVASEPGPTLNGPPRAT* -4.526 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21775 TFAITDMFSETNSITRFN 18 SLAY-screened peptide P125 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTTTGCTATTACTGACATGTTCTCGGAGACCAATAGTATTACTCGTTTTAACTAGCTCTAA TFAITDMFSETNSITRFN*L* -4.493 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21776 LLPPGDLYQNRHIFPECNHN 20 SLAY-screened peptide P126 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTGCCTCCTGGCGATCTCTATCAGAATCGCCATATCTTCCCGGAGTGCAACCATAATTAA LLPPGDLYQNRHIFPECNHN* -4.489 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21777 PHGHSFHVYISLLFY 15 SLAY-screened peptide P127 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCACGGGCATAGCTTTCACGTCTATATTTCTCTTCTTTTTTACTAGGGGCTGGTGAATTAA PHGHSFHVYISLLFY*GLVN* -4.481 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21778 CRTTSNHPLEIRRYCMYHGR 20 SLAY-screened peptide P128 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGTACTACTAGTAATCATCCTCTGGAGATTCGGAGGTATTGCATGTACCACGGGAGGTAA CRTTSNHPLEIRRYCMYHGR* -4.468 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21779 THKFHHRGRGYHSPNACLAG 20 SLAY-screened peptide P129 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCATAAGTTCCACCATCGGGGTCGCGGTTATCATTCTCCTAATGCTTGTCTTGCCGGCTAA THKFHHRGRGYHSPNACLAG* -4.452 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21780 NDLYIGLYELMVNPARDHPN 20 SLAY-screened peptide P130 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGACCTGTATATTGGGCTGTACGAGCTTATGGTTAATCCTGCTAGGGATCATCCTAATTAA NDLYIGLYELMVNPARDHPN* -4.447 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21781 ANLLLTLFMLTLRVGLAILSN 21 SLAY-screened peptide P131 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAACTTGCTGCTAACCCTATTCATGCTAACCTTACGTGTCGGGCTTGCTATACTATCTAAC ANLLLTLFMLTLRVGLAILSN -4.402 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21782 NPFLGSGSIGLFHRSMCCIL 20 SLAY-screened peptide P132 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCCGTTTCTTGGTAGCGGCTCTATCGGCCTGTTTCACAGGTCGATGTGCTGTATTTTGTAA NPFLGSGSIGLFHRSMCCIL* -4.385 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21783 RLHFGRGARVHVHYGMGAVH 20 SLAY-screened peptide P133 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCTTCATTTCGGCCGTGGTGCGCGCGTGCATGTCCATTATGGGATGGGTGCGGTCCACTAA RLHFGRGARVHVHYGMGAVH* -4.384 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21784 RLASNHNPHHLHTSHQE 17 SLAY-screened peptide P134 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTGGCCTCTAATCACAATCCGCATCATCTGCATACTAGTCATCAGGAGTAACTGAGTAAG RLASNHNPHHLHTSHQE*LSK -4.38 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21785 LVDGSWYSRPYVHSAGPPRV 20 SLAY-screened peptide P135 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTCGATGGTAGTTGGTATTCTCGGCCCTACGTTCATAGCGCCGGTCCGCCCCGGGTTTAA LVDGSWYSRPYVHSAGPPRV* -4.376 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21786 LAGACPLHNSPNNGF 15 SLAY-screened peptide P136 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGCTGGTGCCTGTCCTCTGCATAACTCTCCTAATAATGGTTTCTAGGTTTAGATCGTCTAA LAGACPLHNSPNNGF*V*IV* -4.374 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21787 SPISNTA 7 SLAY-screened peptide P137 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCTATTAGTAATACTGCCTAGACGCGTTTTCCTCATCGTGACTGTAAGTGTGCGAATTAA SPISNTA*TRFPHRDCKCAN* -4.371 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21788 SPIHAHCCTTNYHDIIVDFV 20 SLAY-screened peptide P138 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCCGATCCATGCTCACTGTTGCACGACTAACTACCACGATATTATTGTTGATTTTGTTTAA SPIHAHCCTTNYHDIIVDFV* -4.366 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21789 RWALEPHSIWFHLKKMHLT 19 SLAY-screened peptide P139 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTGGGCGCTGGAGCCCCACTCTATCTGGTTTCACCTGAAGAAGATGCACCTCACTTAGTAA RWALEPHSIWFHLKKMHLT** -4.364 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21790 TVPRSERCRYCQLTDYLFSC 20 SLAY-screened peptide P140 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGTGCCTCGCTCTGAGCGCTGCCGGTACTGTCAGCTGACTGATTATTTGTTTTCGTGTTAA TVPRSERCRYCQLTDYLFSC* -4.358 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21791 PLG 3 SLAY-screened peptide P141 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTGGGTAGTATCTTGACAACCATTCTTATCGTTTCTATTGGTGCAAGACGACCCACTAA PLG*YLDNHSYRFYWCKTTH* -4.341 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21792 WSGVTHPNLLAILGIVCCLL 20 SLAY-screened peptide P142 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTCTGGTGTCACTCACCCTAATCTTCTCGCTATCCTTGGTATTGTTTGTTGCCTGCTTTAA WSGVTHPNLLAILGIVCCLL* -4.332 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21793 PH 2 SLAY-screened peptide P143 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCATTAGACCATTACGTATAATGATAACAAGAGCCTTATTCCGGCTACTTTGAATTCGTAA PH*TITYNDNKSLIPATLNS* -4.319 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21794 LA 2 SLAY-screened peptide P144 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCTTAGCCGATTCACCTCTTCAATACTAATCACCCTAATATTGACTATTTTTATCTCTAA LA*PIHLFNTNHPNIDYFYL* -4.318 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21795 AIEVHAAWMLVPC 13 SLAY-screened peptide P145 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGATTGAGGTGCATGCGGCGTGGATGCTCGTTCCGTGCTAGACGGCGAATACGGCCAACTAA AIEVHAAWMLVPC*TANTAN* -4.285 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21796 QLDNHHLLHLNLRYGCRAYL 20 SLAY-screened peptide P146 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCTGGACAATCACCATCTGCTTCATCTTAACCTGCGTTATGGTTGCCGTGCCTATTTGTAA QLDNHHLLHLNLRYGCRAYL* -4.245 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21797 HWYYVHFRDHSSLYTLLPDL 20 SLAY-screened peptide P147 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGGTACTATGTTCATTTCCGTGACCATTCGAGTCTCTATACCCTGCTTCCTGACCTTTAA HWYYVHFRDHSSLYTLLPDL* -4.236 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21798 RAAFNRLTRFCAYVYSWQ 18 SLAY-screened peptide P148 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGCTGCTTTTAATCGCCTTACTCGTTTTTGCGCCTATGTTTATTCTTGGCAGTAGTAGTAA RAAFNRLTRFCAYVYSWQ*** -4.223 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21799 SRFHPVVNAARPNAHEGYSA 20 SLAY-screened peptide P149 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGGTTCCATCCTGTGGTTAACGCTGCTCGTCCTAATGCGCACGAGGGGTATAGCGCTTAA SRFHPVVNAARPNAHEGYSA* -4.211 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21800 LLTTPYSQLSNAVYLPCS 18 SLAY-screened peptide P150 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTCACTACTCCTTATTCCCAGTTGTCGAATGCGGTTTATTTGCCCTGCAGCTAGTTTTAA LLTTPYSQLSNAVYLPCS*F* -4.185 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21801 TPLRRHYSIRWLYVRIRRRN 20 SLAY-screened peptide P151 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCCCTTCGCCGGCATTACAGCATTCGTTGGCTGTACGTGCGTATTAGGCGTAGGAATTAA TPLRRHYSIRWLYVRIRRRN* -4.174 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21802 ATRRTATNLLGERTDAHTYR 20 SLAY-screened peptide P152 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTACTCGCCGGACTGCGACTAATCTTCTTGGTGAGCGTACTGATGCCCATACTTATAGGTAA ATRRTATNLLGERTDAHTYR* -4.169 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21803 AFTDDAVRIPGRRCTTFNCS 20 SLAY-screened peptide P153 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTTTACTGACGATGCTGTTCGGATTCCGGGTAGGCGTTGTACTACGTTCAACTGCAGCTAA AFTDDAVRIPGRRCTTFNCS* -4.164 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21804 TFPPVHLSSDAILGDLHHAG 20 SLAY-screened peptide P154 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTTTCCGCCGGTGCATCTGTCTTCTGACGCGATTTTGGGCGATCTTCACCATGCTGGTTAA TFPPVHLSSDAILGDLHHAG* -4.162 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21805 AMQIPNSLCAISS 13 SLAY-screened peptide P155 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTATGCAGATTCCCAACTCTCTTTGCGCTATTAGTTCTTAGAATAACCCTTATGGTCTTTAA AMQIPNSLCAISS*NNPYGL* -4.146 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21806 NVSLDNHGMLPGMLKSFYC 19 SLAY-screened peptide P156 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGTCTCCCTCGACAATCACGGTATGCTTCCTGGTATGCTTAAGAGCTTTTATTGCTAGTAA NVSLDNHGMLPGMLKSFYC** -4.126 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21807 AGGYRHYMYGPHDWRFHRFY 20 SLAY-screened peptide P157 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGGCGGCTATCGCCACTATATGTATGGTCCTCATGATTGGCGCTTTCATCGGTTTTATTAA AGGYRHYMYGPHDWRFHRFY* -4.125 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21808 MYNSASDETTSSHSNTGNYN 20 SLAY-screened peptide P158 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTATAATAGCGCCTCTGATGAGACTACCTCCTCTCATAGTAATACTGGTAATTATAATTAA MYNSASDETTSSHSNTGNYN* -4.12 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21809 CPFTVSDTSASYRSTRSFYS 20 SLAY-screened peptide P159 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCTTTCACTGTGTCTGATACCTCTGCGTCTTATCGTTCTACTCGTTCGTTTTATTCTTAA CPFTVSDTSASYRSTRSFYS* -4.113 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21810 LATSTLDYHSHLYSGPNSYG 20 SLAY-screened peptide P160 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGCGACGTCCACGCTGGACTATCACAGTCACTTGTACAGCGGGCCTAACAGCTACGGTTAA LATSTLDYHSHLYSGPNSYG* -4.093 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21811 THDLAHNNNYFRVGSYLRLY 20 SLAY-screened peptide P161 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCACGACTTGGCGCACAACAACAATTATTTTCGCGTCGGTAGTTATCTTCGTCTTTATTAA THDLAHNNNYFRVGSYLRLY* -4.084 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21812 MALWNPLLCKANHDLYLDAN 20 SLAY-screened peptide P162 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGCCTTGTGGAACCCTCTGCTGTGCAAGGCTAACCATGATCTGTATTTGGATGCTAACTAA MALWNPLLCKANHDLYLDAN* -4.062 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21813 KGVPVHIMPGAFFPSLVAGR 20 SLAY-screened peptide P163 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGGGTGTTCCTGTTCACATCATGCCTGGTGCTTTTTTCCCTTCTCTGGTTGCGGGCCGGTAA KGVPVHIMPGAFFPSLVAGR* -4.061 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21814 RLVSAEQHHNNSSYLAFMNE 20 SLAY-screened peptide P164 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCTTGTGTCTGCCGAGCAGCATCACAATAATAGTAGTTATCTGGCCTTTATGAATGAGTAA RLVSAEQHHNNSSYLAFMNE* -4.057 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21815 LVCLCDCFQPDRTGSSVSED 20 SLAY-screened peptide P165 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTCTGCTTGTGTGATTGTTTCCAGCCCGATCGCACTGGTTCTAGTGTCTCTGAGGATTAA LVCLCDCFQPDRTGSSVSED* -4.035 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21816 TSNSPKALGNTASMSPMCHI 20 SLAY-screened peptide P166 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCTAATTCTCCTAAGGCTCTGGGGAATACGGCCTCGATGAGCCCGATGTGCCATATTTAA TSNSPKALGNTASMSPMCHI* -4.022 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21817 NCAFERPNHPSPYYDFEYTI 20 SLAY-screened peptide P167 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTGCGCGTTTGAGCGTCCTAACCACCCTTCTCCGTATTATGACTTTGAGTATACTATTTAA NCAFERPNHPSPYYDFEYTI* -4.017 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21818 EPNHHSAVTGNRNNSATDND 20 SLAY-screened peptide P168 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCCCAATCATCACTCTGCTGTTACGGGTAATCGTAACAATAGCGCGACTGATAATGATTAA EPNHHSAVTGNRNNSATDND* -3.984 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21819 PDSPIVVVAQHKRPCDTLPF 20 SLAY-screened peptide P169 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGATAGTCCGATTGTGGTTGTTGCTCAGCATAAGCGTCCCTGTGATACGCTTCCTTTCTAA PDSPIVVVAQHKRPCDTLPF* -3.959 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21820 GHSPSLHCTMVIVIDGDNVT 20 SLAY-screened peptide P170 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCATTCTCCTTCTTTGCATTGTACGATGGTGATCGTTATTGATGGCGACAATGTCACTTAA GHSPSLHCTMVIVIDGDNVT* -3.949 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21821 PTRTEQWSTSNDSERTCLIL 20 SLAY-screened peptide P171 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCCGGACGGAGCAGTGGAGTACTTCCAACGATAGTGAGCGGACGTGCCTCATTTTGTAA PTRTEQWSTSNDSERTCLIL* -3.936 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21822 CGHCHTCTIPYCGNLIVAIHY 21 SLAY-screened peptide P172 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGGCCATTGCCACACCTGCACCATTCCTTATTGCGGTAATCTTATTGTTGCTATCCACTAC CGHCHTCTIPYCGNLIVAIHY -3.921 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21823 PADTFFLLP 9 SLAY-screened peptide P173 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTGATACTTTCTTTCTGCTTCCGTAGCCTCGCATTGATTCCACCCACCGTCAGGCGTAA PADTFFLLP*PRIDSTHRQA* -3.919 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21824 TVTSETLYFRLTCYTSRP 18 SLAY-screened peptide P174 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGTGACGAGTGAGACCCTTTACTTCAGGCTGACTTGCTATACGTCGCGTCCTTAGCCTTAA TVTSETLYFRLTCYTSRP*P* -3.91 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21825 PRSTDVARRPGLSTV 15 SLAY-screened peptide P175 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGGAGTACTGATGTGGCGCGGCGCCCTGGCCTCAGTACTGTTTAGACGCTTCAGACGTAA PRSTDVARRPGLSTV*TLQT* -3.901 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21826 TSPATYRHTNWRGAPPLPNT 20 SLAY-screened peptide P176 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCTCCGGCTACTTACAGGCATACCAACTGGCGTGGTGCGCCGCCGCTCCCGAACACCTAA TSPATYRHTNWRGAPPLPNT* -3.884 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21827 SHLDNCTSVYNAANYTLMIG 20 SLAY-screened peptide P177 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCATCTCGATAATTGTACTAGTGTTTATAATGCCGCTAACTATACTTTGATGATTGGCTAA SHLDNCTSVYNAANYTLMIG* -3.882 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21828 ISSLR 5 SLAY-screened peptide P178 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTCGAGCTTGCGTTAGACTGAGATTCCTCCTGCGTGTGGCCACACTATTTCGTCGATGTAA ISSLR*TEIPPACGHTISSM* -3.88 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21829 LMYNATYDH 9 SLAY-screened peptide P179 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATGTACAATGCTACTTATGATCACTAGCCTAATACCAACCTTACCAATGCCATGAATTAA LMYNATYDH*PNTNLTNAMN* -3.873 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21830 TLHAGLYSVIIMFYGRWVSN 20 SLAY-screened peptide P180 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTGCATGCCGGCCTGTATTCTGTTATTATTATGTTTTACGGTCGTTGGGTTTCTAATTAA TLHAGLYSVIIMFYGRWVSN* -3.868 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21831 PAEWSTVVGNFTYHFNYNLL 20 SLAY-screened peptide P181 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCGGAGTGGTCGACTGTTGTGGGTAATTTTACGTACCATTTCAATTATAATCTCTTGTAA PAEWSTVVGNFTYHFNYNLL* -3.866 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21832 TLYIITYWDPDYKNIVSLTI 20 SLAY-screened peptide P182 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTTGTACATTATTACGTATTGGGATCCTGATTACAAGAATATTGTTTCGCTTACGATTTAA TLYIITYWDPDYKNIVSLTI* -3.866 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21833 HPITIPNLLLAYRMPVLMLF 20 SLAY-screened peptide P183 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCCATTACTATTCCTAATCTTCTTTTGGCTTACCGCATGCCTGTTCTCATGCTGTTTTAA HPITIPNLLLAYRMPVLMLF* -3.852 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21834 GDCTHKYADLPNAISNLFLR 20 SLAY-screened peptide P184 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGATTGCACTCACAAGTATGCTGATCTCCCTAATGCTATCAGCAACCTTTTTTTGCGCTAA GDCTHKYADLPNAISNLFLR* -3.849 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21835 GHVAMDPNINAVFHTTADTS 20 SLAY-screened peptide P185 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCACGTGGCCATGGATCCCAACATCAATGCTGTCTTTCACACTACTGCTGATACTTCTTAA GHVAMDPNINAVFHTTADTS* -3.846 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21836 IKTPKLDPN 9 SLAY-screened peptide P186 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAAGACGCCTAAGCTTGATCCTAATTAGTGCATTTGCAAGATTCCTGTGCTTTACCGTTAA IKTPKLDPN*CICKIPVLYR* -3.846 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21837 HNFPCVYLARRRSSTRRGRVT 21 SLAY-screened peptide P187 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAACTTTCCGTGTGTCTACCTTGCCAGGCGCCGTTCATCAACTCGCCGAGGTCGAGTAACT HNFPCVYLARRRSSTRRGRVT -3.838 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21838 PSHGLDSSRRTHCNYIRTCE 20 SLAY-screened peptide P188 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCCATGGTCTTGATTCTTCGCGTCGCACGCATTGCAACTATATTCGCACTTGTGAGTAA PSHGLDSSRRTHCNYIRTCE* -3.836 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21839 SVRGRCCSGEYARSRAVGTP 20 SLAY-screened peptide P189 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGTTCGTGGTCGGTGTTGTAGCGGTGAGTATGCGCGGTCTCGGGCTGTGGGGACCCCCTAA SVRGRCCSGEYARSRAVGTP* -3.831 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21840 PLQSPALATVMRIDHPTPTV 20 SLAY-screened peptide P190 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTGCAGAGTCCCGCTTTGGCGACGGTTATGCGTATCGACCACCCGACTCCGACCGTTTAA PLQSPALATVMRIDHPTPTV* -3.824 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21841 NICDTYILRDNRPFLT 16 SLAY-screened peptide P191 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATATTTGTGATACTTACATTCTGCGCGACAATCGTCCTTTCTTGACGTAGATCAGCATTAAC NICDTYILRDNRPFLT*ISIN -3.808 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21842 WPPPNYQRHDALKEEETSNL 20 SLAY-screened peptide P192 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCCCCGCCGAATTACCAGCGCCACGATGCTCTCAAGGAGGAGGAGACGTCCAATTTGTAA WPPPNYQRHDALKEEETSNL* -3.803 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21843 VLLQY 5 SLAY-screened peptide P193 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCTTTTGCAGTACTAGCCTAAAATTAGGGCTGGAGCAGCTACGGTTACAACACTACTTAAC VLLQY*PKIRAGAATVTTLLN -3.795 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21844 PPGPANHAHHICIWPSEPAH 20 SLAY-screened peptide P194 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCGGGCCCTGCTAATCACGCTCACCATATTTGCATTTGGCCCTCGGAGCCCGCCCATTAA PPGPANHAHHICIWPSEPAH* -3.762 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21845 HVIASGCAVLLNYFRVMLPS 20 SLAY-screened peptide P195 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGTTATCGCCAGCGGTTGCGCTGTTTTGCTTAACTATTTTAGGGTTATGCTTCCTTCCTAA HVIASGCAVLLNYFRVMLPS* -3.755 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21846 DHHRFIAPDISLARYFILYT 20 SLAY-screened peptide P196 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCATCACCGTTTCATTGCCCCTGATATTTCTCTTGCTAGGTACTTTATTCTGTATACGTAA DHHRFIAPDISLARYFILYT* -3.753 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21847 PSSSQVPGDHFHFSNYVTFLY 21 SLAY-screened peptide P197 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGTTCCTCCCAGGTTCCCGGTGATCACTTTCACTTTAGCAATTATGTTACCTTCTTGTAC PSSSQVPGDHFHFSNYVTFLY -3.753 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21848 LFNLMSILNPDFSYYTNASN 20 SLAY-screened peptide P198 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTTAACCTTATGTCTATTCTTAATCCTGACTTTAGCTACTATACTAACGCTTCTAATTAA LFNLMSILNPDFSYYTNASN* -3.748 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21849 STYF 4 SLAY-screened peptide P199 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACTTACTTTTAGCTCTGTCACTATCTTCGTAACATTTCTCGGCAGAAGGGTGAGGCCTAA STYF*LCHYLRNISRQKGEA* -3.733 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21850 SNSCLSSPCNIHYSVIPDRN 20 SLAY-screened peptide P200 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAATTCTTGCCTTTCTAGTCCTTGTAACATTCATTATAGTGTCATCCCTGATAGGAACTAA SNSCLSSPCNIHYSVIPDRN* -3.722 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21851 MQARPHWFSHDL 12 SLAY-screened peptide P201 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCAGGCTCGCCCCCACTGGTTCTCGCATGACCTGTAGTAGTGTAACTTGGATTATTATTAA MQARPHWFSHDL**CNLDYY* -3.697 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21852 NAPIISVCYCSTQILCLGDI 20 SLAY-screened peptide P202 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGCGCCTATTATCAGTGTCTGTTATTGCAGTACTCAGATTCTCTGCCTTGGTGATATTTAA NAPIISVCYCSTQILCLGDI* -3.692 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21853 NRPNM 5 SLAY-screened peptide P203 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCGTCCGAACATGTAGAAGTGCGGCACTTTGCCGCCTCGTTTTTAGGTTGCTATTGTCTAA NRPNM*KCGTLPPRF*VAIV* -3.684 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21854 PMHYLGSTTLKKNHLYHDSIN 21 SLAY-screened peptide P204 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATGCATTACCTCGGTTCTACTACTCTTAAGAAGAATCATCTGTACCATGACTCGATTAAC PMHYLGSTTLKKNHLYHDSIN -3.683 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21855 ASDSPFQECDHLFYISNYIL 20 SLAY-screened peptide P205 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGAGTGATTCTCCTTTCCAGGAGTGTGACCATCTCTTTTACATTTCTAATTATATCCTGTAA ASDSPFQECDHLFYISNYIL* -3.682 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21856 RPFSKHSYNTDNTDYYHSNC 20 SLAY-screened peptide P206 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCCTTTTCTAAGCACTCCTACAACACGGATAATACTGATTATTATCATTCTAACTGCTAA RPFSKHSYNTDNTDYYHSNC* -3.675 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21857 LNMLLYSTFRFTCSGNDHYH 20 SLAY-screened peptide P207 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAACATGCTTCTTTACTCGACTTTTAGGTTTACGTGTTCGGGTAACGATCACTATCACTAA LNMLLYSTFRFTCSGNDHYH* -3.673 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21858 LLVSYCNGDIKHCHPNNSFS 20 SLAY-screened peptide P208 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTCGTGTCTTATTGCAATGGTGACATTAAGCATTGCCACCCTAATAATTCGTTTTCTTAA LLVSYCNGDIKHCHPNNSFS* -3.656 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21859 PLCYTLHSHNYNAAYYSSLS 20 SLAY-screened peptide P209 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTTTGTTACACGCTGCACTCCCATAATTATAATGCTGCTTATTATTCGAGTCTGTCGTAA PLCYTLHSHNYNAAYYSSLS* -3.656 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21860 PKTPASYCTIIVMVDNTVSL 20 SLAY-screened peptide P210 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAAGACGCCCGCGTCTTACTGTACGATTATCGTTATGGTTGACAATACTGTTTCTCTGTAA PKTPASYCTIIVMVDNTVSL* -3.653 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21861 LFHSEFSDTQRSIHNISDYL 20 SLAY-screened peptide P211 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTTCATTCTGAGTTTAGTGATACTCAGAGGTCCATTCACAACATCAGCGATTACTTGTAA LFHSEFSDTQRSIHNISDYL* -3.648 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21862 WTSRFALLTKHFAIFVTILTN 21 SLAY-screened peptide P212 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGACTTCCCGCTTTGCGCTCCTTACTAAGCACTTCGCTATCTTTGTAACCATCCTAACTAAC WTSRFALLTKHFAIFVTILTN -3.633 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21863 HHRNLQLYTFLSLLWTHYAA 20 SLAY-screened peptide P213 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCACCGTAATCTGCAGTTGTATACGTTCCTGTCTTTGCTGTGGACTCATTACGCCGCGTAA HHRNLQLYTFLSLLWTHYAA* -3.633 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21864 PYARSLGTGGNYIVNIIPRY 20 SLAY-screened peptide P214 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATGCCCGGAGCCTTGGCACTGGGGGTAATTATATTGTTAACATTATTCCTCGTTATTAA PYARSLGTGGNYIVNIIPRY* -3.631 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21865 SSNRHLGGSCQSPESDNYSIY 21 SLAY-screened peptide P215 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTCTAACCGTCACTTGGGTGGTAGCTGTCAGAGTCCCGAGAGCGATAACTATAGTATTTAC SSNRHLGGSCQSPESDNYSIY -3.628 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21866 SDD 3 SLAY-screened peptide P216 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGACGATTAGTATACGTGTATGCCGATTCCCACGTATTTCCGTGTCAATCTCTTCCCCTAA SDD*YTCMPIPTYFRVNLFP* -3.623 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21867 PPCCVTPPSILSFAVATCAT 20 SLAY-screened peptide P217 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTTGCTGCGTTACCCCGCCTAGCATCCTTAGTTTTGCTGTGGCTACGTGCGCGACGTAA PPCCVTPPSILSFAVATCAT* -3.612 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21868 ILVVSL 6 SLAY-screened peptide P218 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTCGTCGTCTCGTTGTAGCATCCTGGCGCCTATCCCTCCATGCTGTGGTCTACCACTTAA ILVVSL*HPGAYPSMLWSTT* -3.596 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21869 PNLHSGNRPLYNLFAYAAHG 20 SLAY-screened peptide P219 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAATCTTCACTCTGGTAATAGGCCGCTCTATAATCTGTTTGCCTACGCTGCCCATGGTTAA PNLHSGNRPLYNLFAYAAHG* -3.591 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21870 HYFYLDVLAILPLHFKSIPC 20 SLAY-screened peptide P220 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTACTTCTATCTGGACGTGCTTGCTATTCTCCCGCTTCATTTTAAGAGTATTCCTTGTTAA HYFYLDVLAILPLHFKSIPC* -3.587 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21871 RDIITIRHCAYRHTPNTRIC 20 SLAY-screened peptide P221 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGATATTATCACGATCAGGCACTGTGCGTATCGCCATACGCCTAACACTCGCATTTGCTAA RDIITIRHCAYRHTPNTRIC* -3.579 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21872 RHIAYHCNMLFSDFLDRFLE 20 SLAY-screened peptide P222 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCATATTGCTTATCATTGCAACATGCTGTTTTCTGACTTTCTCGATCGTTTTCTCGAGTAA RHIAYHCNMLFSDFLDRFLE* -3.576 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21873 YSGTYTGFSNYCIVDCTI 18 SLAY-screened peptide P223 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAGTGGCACGTATACTGGTTTCTCTAATTATTGCATTGTGGATTGTACCATCTAGTATTAA YSGTYTGFSNYCIVDCTI*Y* -3.574 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21874 PPYNLHTDN 9 SLAY-screened peptide P224 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCTTATAACCTTCACACTGATAATTAGTCTTTTCGGGACGAGTATCTTAAGTCTAGGTAA PPYNLHTDN*SFRDEYLKSR* -3.573 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21875 AWNYNYGKPPLGINLQYLRT 20 SLAY-screened peptide P225 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTGGAATTACAATTACGGCAAGCCTCCTCTGGGTATCAACCTGCAGTATCTCCGGACCTAA AWNYNYGKPPLGINLQYLRT* -3.572 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21876 RPFHTTPNFSRCLYPRDSFL 20 SLAY-screened peptide P226 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCTTTTCATACTACGCCTAACTTTAGCCGTTGTCTGTATCCGCGTGATTCTTTTCTCTAA RPFHTTPNFSRCLYPRDSFL* -3.571 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21877 PFGKHRSGLFPRHNSKTAQL 20 SLAY-screened peptide P227 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTTGGGAAGCATCGTTCTGGTCTTTTTCCTAGGCATAACAGCAAGACCGCGCAGCTGTAA PFGKHRSGLFPRHNSKTAQL* -3.569 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21878 PGGCPSLRMHDLDDTMHVLQ 20 SLAY-screened peptide P228 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGTGGCTGTCCTAGTCTTCGCATGCACGATCTCGATGATACTATGCACGTTCTTCAGTAA PGGCPSLRMHDLDDTMHVLQ* -3.565 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21879 RGSKDCAYPASSNLDSIILN 20 SLAY-screened peptide P229 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGGTTCGAAGGACTGTGCTTACCCTGCTTCTTCTAATTTGGATTCCATTATTCTGAACTAA RGSKDCAYPASSNLDSIILN* -3.556 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21880 PILCDLGVAYAIPPFCDD 18 SLAY-screened peptide P230 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATCCTTTGTGACCTGGGTGTTGCTTATGCGATTCCGCCTTTCTGTGATGATTAGACCTAA PILCDLGVAYAIPPFCDD*T* -3.553 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21881 RRARGVYTWYSNLPSAQRVP 20 SLAY-screened peptide P231 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCGCGCTCGGGGCGTGTATACCTGGTATTCTAACCTTCCGTCGGCCCAGCGGGTTCCCTAA RRARGVYTWYSNLPSAQRVP* -3.543 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21882 RTLTFMVRIGAKMLFFEIRY 20 SLAY-screened peptide P232 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACCCTCACCTTTATGGTTCGCATTGGGGCCAAGATGCTCTTTTTTGAGATTAGGTATTAA RTLTFMVRIGAKMLFFEIRY* -3.537 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21883 RMGSSYTSGIDLWLVLHHNN 20 SLAY-screened peptide P233 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGATGGGGTCTTCCTACACTTCTGGTATTGACCTGTGGCTGGTGCTGCATCATAATAATTAA RMGSSYTSGIDLWLVLHHNN* -3.535 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21884 PYWLGTLDRVNYLGPTGYAF 20 SLAY-screened peptide P234 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATTGGCTGGGTACTCTTGATCGCGTCAATTACCTTGGCCCCACGGGGTATGCCTTCTAA PYWLGTLDRVNYLGPTGYAF* -3.53 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21885 PGPYSKSLLSIRCADPN 17 SLAY-screened peptide P235 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGGCCCTTACTCTAAGTCTCTGCTTTCTATTCGGTGTGCTGACCCTAACTAGAACGCTTAA PGPYSKSLLSIRCADPN*NA* -3.523 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21886 YRNTTTIR 8 SLAY-screened peptide P236 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCGTAACACTACGACTATTCGTTAGGATCTCCATAGCAACGGCGACTCTAGTAGCCCTTAA YRNTTTIR*DLHSNGDSSSP* -3.521 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21887 SQTYCIWLRVRIRIAIIIRLN 21 SLAY-screened peptide P237 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCAGACTTACTGCATTTGGTTACGCGTACGAATCCGCATAGCAATAATTATACGACTTAAC SQTYCIWLRVRIRIAIIIRLN -3.517 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21888 TNFHMLNYYASPGCSYKEPL 20 SLAY-screened peptide P238 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAATTTCCATATGCTTAATTATTACGCCAGCCCGGGCTGCTCTTATAAGGAGCCCCTCTAA TNFHMLNYYASPGCSYKEPL* -3.514 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21889 RSNNVFTLPQNLHSANKLCP 20 SLAY-screened peptide P239 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTCGAATAATGTTTTTACGCTTCCTCAGAATCTTCATTCGGCTAATAAGCTCTGCCCTTAA RSNNVFTLPQNLHSANKLCP* -3.511 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21890 VGTSSLNGDKVPNLPRRVIR 20 SLAY-screened peptide P240 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGGGACGTCTAGCCTTAATGGCGACAAGGTTCCTAATTTGCCTAGGAGGGTCATTCGTTAA VGTSSLNGDKVPNLPRRVIR* -3.506 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21891 VSVILRPNGLNLSVRLSYAC 20 SLAY-screened peptide P241 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTCTGTTATTCTTAGGCCTAACGGTCTTAACCTTTCTGTTCGTCTGAGCTACGCTTGCTAA VSVILRPNGLNLSVRLSYAC* -3.504 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21892 PPGGYHCDLYFLILRH 16 SLAY-screened peptide P242 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCGGGCGGGTATCATTGTGATTTGTATTTTCTTATTCTTCGTCACTAGCAGAAGTAGTAA PPGGYHCDLYFLILRH*QK** -3.497 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21893 RLALTFIHRLYHPNHLNFHS 20 SLAY-screened peptide P243 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTGGCGCTCACGTTCATCCACAGGCTTTATCATCCTAATCACCTTAACTTTCACTCTTAA RLALTFIHRLYHPNHLNFHS* -3.489 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21894 IRYGPPCSHNLREHLPKTLE 20 SLAY-screened peptide P244 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAGGTATGGCCCGCCTTGTAGCCACAATCTTCGGGAGCATCTTCCGAAGACCCTCGAGTAA IRYGPPCSHNLREHLPKTLE* -3.478 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21895 GNLNFPIEWKARRMVEVKSQ 20 SLAY-screened peptide P245 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGAATCTTAATTTTCCTATTGAGTGGAAGGCGCGTCGTATGGTTGAGGTCAAGTCCCAGTAA GNLNFPIEWKARRMVEVKSQ* -3.477 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21896 DIHAITRVPDTQLIHFVCIS 20 SLAY-screened peptide P246 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATATTCATGCGATCACTCGTGTCCCTGATACGCAGCTTATCCATTTTGTCTGCATTTCTTAA DIHAITRVPDTQLIHFVCIS* -3.471 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21897 QSTSNLHMSYTVNGTNVLGR 20 SLAY-screened peptide P247 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTCCACTTCGAATCTCCATATGTCTTACACTGTCAACGGGACTAATGTCCTGGGGCGTTAA QSTSNLHMSYTVNGTNVLGR* -3.469 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21898 NSVDPIDSDIDMTYNALHSDY 21 SLAY-screened peptide P248 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCGGTTGATCCTATTGATTCTGACATTGATATGACTTATAATGCCTTGCATAGTGATTAC NSVDPIDSDIDMTYNALHSDY -3.465 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21899 PPVRKRITVSYHILFNKNND 20 SLAY-screened peptide P249 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCGTCCGTAAGCGTATCACCGTTAGTTATCATATTTTGTTTAATAAGAATAACGACTAA PPVRKRITVSYHILFNKNND* -3.454 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21900 PSDLVPTLSPNNRGPPEYSP 20 SLAY-screened peptide P250 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCGGACCTGGTTCCCACTCTTTCTCCGAACAACCGCGGCCCGCCGGAGTACTCTCCCTAA PSDLVPTLSPNNRGPPEYSP* -3.453 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21901 TCMHNNWLPLATLSDRRHLF 20 SLAY-screened peptide P251 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGTATGCATAATAATTGGCTTCCGCTTGCGACCCTGAGCGACAGGAGGCATTTGTTTTAA TCMHNNWLPLATLSDRRHLF* -3.452 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21902 TGRGRHPHGTRTVRIATPNN 20 SLAY-screened peptide P252 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGCCGGGGTAGGCACCCTCACGGCACTCGTACGGTTCGTATTGCTACGCCGAACAATTAA TGRGRHPHGTRTVRIATPNN* -3.45 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21903 STPGLCTTASPPFVP 15 SLAY-screened peptide P253 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGACCCCCGGTCTTTGCACCACCGCGAGTCCTCCTTTCGTGCCGTAGACGATCTACTACTAA STPGLCTTASPPFVP*TIYY* -3.449 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21904 CPPLLGYSARDRLSIYGSIV 20 SLAY-screened peptide P254 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCTCCTCTCCTGGGGTACTCCGCTAGGGACCGTCTCAGTATTTATGGTTCGATTGTGTAA CPPLLGYSARDRLSIYGSIV* -3.447 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21905 SSYNAHMM 8 SLAY-screened peptide P255 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAGTTACAATGCTCATATGATGTAGGGTTGGCATAGCACCATCAATACTTTTAAGTGTTAA SSYNAHMM*GWHSTINTFKC* -3.447 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21906 ANSLCFIRGPPSFISKLHNI 20 SLAY-screened peptide P256 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAACTCGCTCTGTTTTATCCGGGGTCCGCCGTCCTTTATCAGCAAGCTTCATAATATTTAA ANSLCFIRGPPSFISKLHNI* -3.446 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21907 KCCSPDTCPTVPEIHMPLSS 20 SLAY-screened peptide P257 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTGCTGTAGTCCTGACACTTGCCCTACGGTTCCTGAGATTCATATGCCTCTCTCGAGTTAA KCCSPDTCPTVPEIHMPLSS* -3.444 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21908 HYHRFATGATRSSYHTHAFI 20 SLAY-screened peptide P258 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTACCATCGCTTCGCCACGGGTGCTACGCGCAGCTCTTACCATACTCATGCGTTTATTTAA HYHRFATGATRSSYHTHAFI* -3.444 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21909 TSVDPNICICILFGHLSGYY 20 SLAY-screened peptide P259 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCCGTGGATCCTAACATTTGTATCTGTATCCTTTTTGGTCATCTCAGTGGTTACTATTAA TSVDPNICICILFGHLSGYY* -3.443 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21910 CPTSALPSSGLLTVPTYASS 20 SLAY-screened peptide P260 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCCACCTCGGCGCTCCCGTCCTCGGGGCTTCTCACTGTGCCTACTTACGCGTCGAGTTAA CPTSALPSSGLLTVPTYASS* -3.44 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21911 TYTQ 4 SLAY-screened peptide P261 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTACACGCAGTAGAAGCATTGGCAGGACCCGCACGCGGCTACGACTTCGTCCGAGAATTAA TYTQ*KHWQDPHAATTSSEN* -3.423 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21912 DTLFHPKLHPHSAPTCTM 18 SLAY-screened peptide P262 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATACCTTGTTTCACCCCAAGCTGCATCCCCATTCCGCCCCTACTTGCACCATGTAGTTCTAA DTLFHPKLHPHSAPTCTM*F* -3.421 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21913 YPIRHSLPYAPYMFRTVACP 20 SLAY-screened peptide P263 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCTATTAGGCATTCTCTTCCTTACGCTCCGTATATGTTCCGCACTGTCGCTTGCCCGTAA YPIRHSLPYAPYMFRTVACP* -3.421 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21914 PC 2 SLAY-screened peptide P264 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCTAGGGTGACGGGTCGAGTATTAACAGGTATAGCGCCCCGGCGTAGGCGTTCCACTAA PC*GDGSSINRYSAPA*AFH* -3.42 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21915 ATCEFWRECT 10 SLAY-screened peptide P265 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTACTTGTGAGTTCTGGAGGGAGTGCACCTAGCGGGCTTACGTTTACTCTGGTATTCTTTAA ATCEFWRECT*RAYVYSGIL* -3.416 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21916 MLCPHYSGHSRYTVRTFCKN 20 SLAY-screened peptide P266 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCTTTGTCCGCACTACTCTGGCCACAGTAGGTATACGGTTCGTACTTTTTGTAAGAACTAA MLCPHYSGHSRYTVRTFCKN* -3.415 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21917 LIILCYTTRSSIDTKYVPS 19 SLAY-screened peptide P267 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATTATCCTTTGTTACACTACTCGTTCTAGTATCGACACGAAGTATGTTCCGTCCTAGTAA LIILCYTTRSSIDTKYVPS** -3.412 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21918 GVVCYLATDSPGTYPGSLSL 20 SLAY-screened peptide P268 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGTCGTGTGCTATCTTGCGACTGATTCGCCGGGCACTTATCCTGGGTCTCTCAGTTTGTAA GVVCYLATDSPGTYPGSLSL* -3.408 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21919 ELWPYFPSSYDLLCMPVDTY 20 SLAY-screened peptide P269 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCTCTGGCCCTACTTTCCGTCCTCCTACGATCTCCTCTGCATGCCTGTGGACACCTACTAA ELWPYFPSSYDLLCMPVDTY* -3.402 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21920 AGRNFPNCLCGLDAMTSSDI 20 SLAY-screened peptide P270 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGGGAGGAATTTCCCTAACTGCCTCTGTGGGCTGGATGCTATGACGAGTTCTGACATCTAA AGRNFPNCLCGLDAMTSSDI* -3.399 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21921 IPPQCPGILLPAYAFSVDSI 20 SLAY-screened peptide P271 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCGCCTCAGTGCCCTGGTATCCTGCTTCCGGCGTATGCTTTTTCCGTTGACAGTATTTAA IPPQCPGILLPAYAFSVDSI* -3.391 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21922 RVHAVPPPGSHFPFLTRAGCN 21 SLAY-screened peptide P272 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGTTCATGCGGTTCCGCCGCCGGGCTCTCACTTTCCCTTCCTCACGCGGGCAGGATGTAAC RVHAVPPPGSHFPFLTRAGCN -3.387 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21923 HAGMDSADFIEYSASNKAHL 20 SLAY-screened peptide P273 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCTGGCATGGATTCTGCGGATTTTATCGAGTATTCGGCGAGTAACAAGGCTCATCTTTAA HAGMDSADFIEYSASNKAHL* -3.375 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21924 SSFNWCPHRVFFCLSTKEVP 20 SLAY-screened peptide P274 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCTTTCAATTGGTGTCCGCATCGGGTTTTTTTCTGTCTTTCGACCAAGGAGGTCCCTTAA SSFNWCPHRVFFCLSTKEVP* -3.371 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21925 DICDNNIETNFQWTTDV 17 SLAY-screened peptide P275 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATATTTGTGATAATAATATTGAGACCAACTTTCAGTGGACCACTGACGTTTAGCTCCCTTAA DICDNNIETNFQWTTDV*LP* -3.368 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21926 QSTTLHTTCGYMSNENDEKG 20 SLAY-screened peptide P276 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAGTACTACCTTGCATACTACTTGTGGTTATATGTCTAACGAGAATGACGAGAAGGGTTAA QSTTLHTTCGYMSNENDEKG* -3.363 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21927 FHILIARFRRARRFTIAVVIN 21 SLAY-screened peptide P277 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCACATCCTCATAGCCAGGTTCCGTCGAGCCCGTCGCTTCACGATTGCCGTCGTGATTAAC FHILIARFRRARRFTIAVVIN -3.355 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21928 SYYRIHQRIIVSSINAFTNY 20 SLAY-screened peptide P278 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTATTATCGTATCCACCAGCGGATCATTGTTTCGTCTATCAATGCTTTTACTAATTATTAA SYYRIHQRIIVSSINAFTNY* -3.342 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21929 PSPDLRAPSNHYNVYGTSH 19 SLAY-screened peptide P279 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCGCCCGACCTCAGGGCTCCTTCTAATCATTATAATGTTTACGGTACCTCGCACTAGTAA PSPDLRAPSNHYNVYGTSH** -3.339 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21930 ANCTHAIYNNFCHHDHAYRT 20 SLAY-screened peptide P280 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAACTGTACCCATGCGATTTATAATAATTTCTGTCATCACGATCACGCCTACCGTACGTAA ANCTHAIYNNFCHHDHAYRT* -3.336 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21931 FLYHNFAMGWFIPGRPMYRA 20 SLAY-screened peptide P281 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCTCTACCACAACTTTGCTATGGGTTGGTTCATCCCCGGGCGCCCGATGTATAGGGCTTAA FLYHNFAMGWFIPGRPMYRA* -3.308 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21932 LMRTVGADSLSALFPDMGKP 20 SLAY-screened peptide P282 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATGCGTACGGTCGGTGCTGATTCGCTGTCTGCTCTTTTTCCGGACATGGGCAAGCCCTAA LMRTVGADSLSALFPDMGKP* -3.299 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21933 EDPAPYTYIPHRYSSSISTH 20 SLAY-screened peptide P283 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGACCCCGCCCCTTACACTTATATTCCTCATAGGTATTCGAGTTCTATCTCGACCCATTAA EDPAPYTYIPHRYSSSISTH* -3.299 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21934 GI 2 SLAY-screened peptide P284 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTATTTAGAACCACGCTTTCTGGGTGCACAGTTATGTTCCGGGGAGGTAGACGGACACGTAA GI*NHAFWVHSYVPGR*TDT* -3.297 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21935 HSLSLSIRDSHINYECNNDS 20 SLAY-screened peptide P285 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAGTTTGTCGCTTTCCATTAGGGATTCTCATATCAATTATGAGTGCAATAACGATTCGTAA HSLSLSIRDSHINYECNNDS* -3.297 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21936 QNLITNFVGGNERHILPIAF 20 SLAY-screened peptide P286 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAATCTCATTACTAATTTCGTTGGGGGTAACGAGCGGCATATCTTGCCCATTGCCTTTTAA QNLITNFVGGNERHILPIAF* -3.296 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21937 HANFSAPLTFLLTIRRRARG 20 SLAY-screened peptide P287 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCCAACTTCAGTGCCCCTCTCACTTTTTTGCTCACGATTCGCCGGCGGGCTAGGGGCTAA HANFSAPLTFLLTIRRRARG* -3.294 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21938 TITPAIPLPRIRSPPSCTFVT 21 SLAY-screened peptide P288 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCATTACTCCAGCGATCCCCTTGCCTCGAATTAGATCGCCACCAAGCTGTACATTCGTAACT TITPAIPLPRIRSPPSCTFVT -3.293 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21939 PNRQHLNFHYFCLMLHPPMP 20 SLAY-screened peptide P289 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAACCGTCAGCATCTTAATTTTCATTATTTCTGCCTTATGCTCCATCCGCCCATGCCGTAA PNRQHLNFHYFCLMLHPPMP* -3.293 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21940 QGNHTLNPSFSANNSFCAIT 20 SLAY-screened peptide P290 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGGCAATCATACTCTTAATCCTAGCTTTTCCGCCAATAATAGCTTTTGCGCTATTACCTAA QGNHTLNPSFSANNSFCAIT* -3.29 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21941 LHSTSIHAMSSHSRTINGKH 20 SLAY-screened peptide P291 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCATAGCACTTCTATCCATGCTATGTCTAGCCATAGTCGTACTATCAACGGCAAGCACTAA LHSTSIHAMSSHSRTINGKH* -3.282 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21942 IFDHDTHCSCNFHFIANGSW 20 SLAY-screened peptide P292 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTTCGATCATGATACTCACTGTAGTTGCAATTTTCACTTTATCGCGAACGGCTCTTGGTAA IFDHDTHCSCNFHFIANGSW* -3.281 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21943 RKCVISVARRNRRANIKILCN 21 SLAY-screened peptide P293 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAAGTGCGTTATCTCCGTGGCGCGCCGTAATCGTAGGGCCAACATCAAGATCTTATGTAAC RKCVISVARRNRRANIKILCN -3.271 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21944 EPTILPDSDNSWIYTLDFTK 20 SLAY-screened peptide P294 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCCCACTATTCTCCCCGACTCCGATAATTCTTGGATTTATACTCTTGATTTTACTAAGTAA EPTILPDSDNSWIYTLDFTK* -3.266 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21945 HNSFDSLLFYRKMDECVVGA 20 SLAY-screened peptide P295 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAACTCTTTTGATTCGCTGCTCTTTTACCGTAAGATGGACGAGTGTGTTGTTGGGGCCTAA HNSFDSLLFYRKMDECVVGA* -3.262 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21946 LSMQ 4 SLAY-screened peptide P296 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCGATGCAGTAGTTCCCGGATCTTAGTCCGCGGTTGCGTTCGCATAGTGATACGTAACTG LSMQ*FPDLSPRLRSHSDT*L -3.254 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21947 IEAPSTVPPYPFTQSCYESW 20 SLAY-screened peptide P297 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGAGGCGCCCTCTACGGTTCCTCCTTATCCGTTTACTCAGAGCTGTTACGAGAGCTGGTAA IEAPSTVPPYPFTQSCYESW* -3.25 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21948 ISANYRSVFDSQHRVNDLLA 20 SLAY-screened peptide P298 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAGCGCGAACTATCGCAGTGTCTTTGATAGCCAGCATCGTGTCAATGATCTTCTCGCCTAA ISANYRSVFDSQHRVNDLLA* -3.246 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21949 LAMPFIKYPLNSRDGVCTHP 20 SLAY-screened peptide P299 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCTATGCCGTTTATTAAGTACCCGTTGAACAGCCGTGACGGCGTTTGCACGCACCCCTAA LAMPFIKYPLNSRDGVCTHP* -3.246 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21950 ILLRNTGFITRVFQTCVEPV 20 SLAY-screened peptide P300 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTCCTTCGCAATACCGGTTTTATTACTCGGGTGTTCCAGACTTGCGTTGAGCCCGTTTAA ILLRNTGFITRVFQTCVEPV* -3.246 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21951 FTMYVVLLHIRQNL 14 SLAY-screened peptide P301 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTACCATGTACGTGGTCCTTCTCCATATTCGCCAGAATCTCTAGGCCCCGGACGCCTGTTAA FTMYVVLLHIRQNL*APDAC* -3.244 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21952 SLDYNHRIDLSVLPYCLGPT 20 SLAY-screened peptide P302 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCTCGATTATAATCACCGTATCGACCTTTCTGTTCTTCCGTACTGCCTCGGTCCGACCTAA SLDYNHRIDLSVLPYCLGPT* -3.243 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21953 PRPRWPPPTTHTIVTPQDTL 20 SLAY-screened peptide P303 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGGCCGAGGTGGCCCCCTCCCACTACTCACACTATTGTTACTCCCCAGGACACGTTGTAA PRPRWPPPTTHTIVTPQDTL* -3.24 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21954 RLHATTYMHMHRDLMNFAFL 20 SLAY-screened peptide P304 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCTGCATGCTACCACGTATATGCATATGCATCGTGACTTGATGAACTTCGCGTTCCTGTAA RLHATTYMHMHRDLMNFAFL* -3.239 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21955 APYRRCSKNRLVLAS 15 SLAY-screened peptide P305 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCCTATCGGCGCTGCTCTAAGAACCGCTTGGTTCTGGCTTCCTAGCAGACGACGTAGTAA APYRRCSKNRLVLAS*QTT** -3.23 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21956 PRRAYFNFNGGSYDTVTISF 20 SLAY-screened peptide P306 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGGAGGGCGTACTTCAACTTCAACGGCGGTAGTTACGATACGGTCACTATTAGTTTCTAA PRRAYFNFNGGSYDTVTISF* -3.218 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21957 LGEAYECSTFNFGST 15 SLAY-screened peptide P307 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGGCGAGGCTTATGAGTGCAGCACTTTCAATTTTGGCTCGACTTAGCACACTGTCGCTAAC LGEAYECSTFNFGST*HTVAN -3.209 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21958 VITPDRSGHFTFDHYYYWAS 20 SLAY-screened peptide P308 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCATCACGCCGGACCGTTCCGGCCACTTTACGTTCGATCACTATTATTACTGGGCCAGTTAA VITPDRSGHFTFDHYYYWAS* -3.206 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21959 IGHLYHSYVSSCSRSGVGMS 20 SLAY-screened peptide P309 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGGTCATCTTTACCATAGCTACGTGTCTAGCTGCTCTAGGTCCGGTGTGGGTATGTCTTAA IGHLYHSYVSSCSRSGVGMS* -3.204 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21960 NAWYTVHYTHNFVIS 15 SLAY-screened peptide P310 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGCGTGGTATACTGTTCACTACACTCATAATTTTGTCATCAGCTAGGACCATACGCAGTAA NAWYTVHYTHNFVIS*DHTQ* -3.202 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21961 DFLALSHYTCCSSNHIPPCH 20 SLAY-screened peptide P311 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTTTTTGGCGCTCAGTCACTATACGTGTTGCTCTTCTAATCATATCCCTCCTTGTCACTAA DFLALSHYTCCSSNHIPPCH* -3.202 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21962 YSTMFHDHPGMGGFDRPPQL 20 SLAY-screened peptide P312 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCTACCATGTTCCATGATCACCCCGGTATGGGTGGTTTTGATCGTCCGCCCCAGCTGTAA YSTMFHDHPGMGGFDRPPQL* -3.201 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21963 MQPHRRNYNTYSLFTDPSDT 20 SLAY-screened peptide P313 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCAGCCTCACCGCCGCAATTATAATACGTATAGTCTTTTTACTGACCCTAGCGATACCTAA MQPHRRNYNTYSLFTDPSDT* -3.198 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21964 HTVLPLYRTVTSKCSHTMGV 20 SLAY-screened peptide P314 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACTGTCCTTCCTCTGTATCGGACCGTCACTTCTAAGTGCTCTCACACTATGGGTGTCTAA HTVLPLYRTVTSKCSHTMGV* -3.194 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21965 PYNVYHSFKHYHIYDDNWVP 20 SLAY-screened peptide P315 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTACAACGTCTATCACAGTTTTAAGCATTACCATATCTATGACGACAATTGGGTGCCTTAA PYNVYHSFKHYHIYDDNWVP* -3.194 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21966 CLHCLCYSGSDCDNIYSFIS 20 SLAY-screened peptide P316 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTTGCATTGTTTGTGCTATTCTGGGAGTGACTGCGACAATATTTACTCTTTCATTTCCTAA CLHCLCYSGSDCDNIYSFIS* -3.192 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21967 LHAIFLHCCKIHAQCVTLYT 20 SLAY-screened peptide P317 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCACGCCATTTTCCTGCATTGTTGCAAGATCCACGCTCAGTGCGTCACTTTGTATACTTAA LHAIFLHCCKIHAQCVTLYT* -3.19 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21968 PALHYVNFERYMPSDNRRL 19 SLAY-screened peptide P318 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTTTGCATTACGTTAACTTCGAGCGGTATATGCCTTCGGACAATCGCCGGCTGTAGTAA PALHYVNFERYMPSDNRRL** -3.183 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21969 NLSLPDYNICMHREHPTILL 20 SLAY-screened peptide P319 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCTGTCGCTTCCCGATTATAACATCTGCATGCACCGCGAGCACCCTACCATTCTCCTGTAA NLSLPDYNICMHREHPTILL* -3.181 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21970 MRFNPTHIYSVPLMTLAPLIN 21 SLAY-screened peptide P320 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCGCTTTAACCCTACTCATATTTATAGCGTACCGTTGATGACACTGGCACCTCTAATTAAC MRFNPTHIYSVPLMTLAPLIN -3.179 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21971 DISHRVRSSDLFLHRPCISY 20 SLAY-screened peptide P321 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACATCAGTCACCGTGTGCGTTCTTCCGATTTGTTCCTTCATCGTCCTTGCATTTCTTATTAA DISHRVRSSDLFLHRPCISY* -3.172 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21972 SLHYGPWHDIFNTPMSHYLW 20 SLAY-screened peptide P322 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCTGCACTACGGTCCCTGGCATGATATTTTCAATACGCCCATGTCTCACTATCTTTGGTAA SLHYGPWHDIFNTPMSHYLW* -3.169 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21973 PCLYDSNCYCFNYCHRPNGE 20 SLAY-screened peptide P323 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTCTCTATGATTCTAATTGCTATTGTTTCAATTACTGTCACAGGCCTAATGGCGAGTAA PCLYDSNCYCFNYCHRPNGE* -3.166 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21974 IATPCNLLDDVFDYTLATDS 20 SLAY-screened peptide P324 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCGACGCCCTGTAATTTGTTGGATGATGTTTTTGATTATACGCTGGCGACTGACTCTTAA IATPCNLLDDVFDYTLATDS* -3.165 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21975 TSYLRYTPHTTLTIFIFVCPN 21 SLAY-screened peptide P325 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAGCTACCTGCGTTATACTCCGCACACCACTCTCACTATTTTCATTTTTGTGTGTCCTAAC TSYLRYTPHTTLTIFIFVCPN -3.155 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21976 CAASYIQDPASYACFNLKSA 20 SLAY-screened peptide P326 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCTGCTAGTTACATTCAGGATCCGGCTTCGTACGCCTGCTTTAACCTTAAGAGCGCTTAA CAASYIQDPASYACFNLKSA* -3.154 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21977 NSLA 4 SLAY-screened peptide P327 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATAGCTTGGCTTAGGAGCCTACGTTCTACGATGGTATTTATTATATTCCTAAAACTAGTAAC NSLA*EPTFYDGIYYIPKTSN -3.152 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21978 NYTRTHIQILAVPVITF 17 SLAY-screened peptide P328 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTATACGCGTACTCACATTCAGATCCTGGCTGTTCCGGTGATTACTTTTTAGTATTATTAA NYTRTHIQILAVPVITF*YY* -3.152 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21979 LPETEALPYRCNIWITLNKE 20 SLAY-screened peptide P329 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCTGAGACCGAGGCTTTGCCTTATCGCTGTAATATCTGGATTACTCTTAATAAGGAGTAA LPETEALPYRCNIWITLNKE* -3.148 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21980 LNTSSRINCFYIDPPDHLFS 20 SLAY-screened peptide P330 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAATACTAGTAGCCGCATTAATTGTTTTTACATTGACCCCCCTGACCATCTGTTTTCTTAA LNTSSRINCFYIDPPDHLFS* -3.147 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21981 RTNLLVMFSFLACMSIPMRI 20 SLAY-screened peptide P331 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACTAATTTGCTGGTTATGTTCTCCTTTTTGGCCTGTATGTCTATCCCCATGCGCATTTAA RTNLLVMFSFLACMSIPMRI* -3.144 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21982 EHAS 4 SLAY-screened peptide P332 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCACGCGAGCTAGACGTTCGATAATTCTCTTATCTATCCTCATCGTTGCATTTTTGATTAA EHAS*TFDNSLIYPHRCIFD* -3.144 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21983 YFPWKGIDY 9 SLAY-screened peptide P333 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTTCCCTTGGAAGGGTATTGATTATTAGACTGACGTCGACATGGCGTATTAGATTGTTTAA YFPWKGIDY*TDVDMAY*IV* -3.135 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21984 CNQSPFIYIACWGNGVIVHL 20 SLAY-screened peptide P334 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAACCAGTCTCCGTTCATTTACATCGCTTGTTGGGGTAATGGTGTTATTGTTCATCTTTAA CNQSPFIYIACWGNGVIVHL* -3.134 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21985 WIPPPQASDTTDGVASSKYD 20 SLAY-screened peptide P335 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGATTCCGCCTCCGCAGGCTAGTGATACTACTGATGGCGTTGCTAGTTCTAAGTACGATTAA WIPPPQASDTTDGVASSKYD* -3.133 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21986 HLDLHLNKSLHITLWYV 17 SLAY-screened peptide P336 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTTGGATTTGCACCTCAATAAGAGTCTCCATATTACTCTCTGGTACGTCTAGGGCTTAACT HLDLHLNKSLHITLWYV*GLT -3.133 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21987 VHTLQTYKDAALDTLYRVLFN 21 SLAY-screened peptide P337 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCATACGCTGCAGACGTACAAGGACGCCGCTCTTGATACTCTTTACAGGGTCCTGTTTAAC VHTLQTYKDAALDTLYRVLFN -3.132 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21988 AQAPDSRYDNTFIGHIDVMK 20 SLAY-screened peptide P338 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCAGGCGCCTGATAGTCGCTATGATAATACTTTTATCGGTCACATTGACGTTATGAAGTAA AQAPDSRYDNTFIGHIDVMK* -3.127 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21989 RKSYSLHICANDYNDKNLGPN 21 SLAY-screened peptide P339 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGAAGAGCTACTCTCTTCACATTTGCGCGAATGATTATAACGATAAGAATCTTGGACCTAAC RKSYSLHICANDYNDKNLGPN -3.124 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21990 NKCRPISKADVL 12 SLAY-screened peptide P340 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATAAGTGCCGCCCCATCTCGAAGGCTGACGTGTTGTAGATGGTTGACTCTAACAGCACTTAA NKCRPISKADVL*MVDSNST* -3.124 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21991 AHPRPVSAP 9 SLAY-screened peptide P341 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCATCCCCGTCCGGTGTCCGCTCCTTAGCACCATCACCCTTAGAACACGACCGTGCACTAA AHPRPVSAP*HHHP*NTTVH* -3.12 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21992 SSDYSDPLSWARSTCDNRNP 20 SLAY-screened peptide P342 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTCGGATTACAGTGATCCTCTTTCTTGGGCGCGGTCTACTTGCGACAATAGGAACCCTTAA SSDYSDPLSWARSTCDNRNP* -3.117 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21993 AFTNMLITAFCNPIYAMTVDL 21 SLAY-screened peptide P343 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTTCACGAACATGCTTATTACGGCTTTTTGCAACCCTATCTATGCTATGACCGTCGACCTG AFTNMLITAFCNPIYAMTVDL -3.114 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21994 VCDYHYNIHCLRRR 14 SLAY-screened peptide P344 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTGTGATTACCATTATAACATCCATTGTCTTCGCCGTCGTTAGTAGCCTCATAATAATTAA VCDYHYNIHCLRRR**PHNN* -3.106 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21995 IIDSGTQPGAFYLVMFRIVQ 20 SLAY-screened peptide P345 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTATTGATAGTGGTACTCAGCCTGGTGCTTTTTACCTGGTTATGTTCCGTATTGTTCAGTAA IIDSGTQPGAFYLVMFRIVQ* -3.102 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21996 GTSSPRKPIHNYRKENITND 20 SLAY-screened peptide P346 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTACTAGCTCTCCTCGTAAGCCCATTCATAACTACAGGAAGGAGAATATCACGAACGACTAA GTSSPRKPIHNYRKENITND* -3.101 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21997 VPFLPGIWVLPRPVRIASFAN 21 SLAY-screened peptide P347 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCCATTTTTGCCCGGTATATGGGTACTACCAAGACCTGTGCGCATCGCGTCGTTTGCTAAC VPFLPGIWVLPRPVRIASFAN -3.101 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21998 SGEDR 5 SLAY-screened peptide P348 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGGGGAGGACCGGTAGCCTCTCTCTGTCCCTATTGTTCTTGACCCTGATCAGGCTTCGTAA SGEDR*PLSVPIVLDPDQAS* -3.1 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP21999 MPRVHPTVDRNALYLIPVIN 20 SLAY-screened peptide P349 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCCTCGTGTCCACCCTACGGTGGATCGTAACGCTCTTTATCTCATTCCCGTTATTAACTAA MPRVHPTVDRNALYLIPVIN* -3.091 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22000 APRIDDIR 8 SLAY-screened peptide P350 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCGCGCATTGATGACATTAGGTAGGGTCGCTCTAACAATATTGGGGCGCTGTTTTCGTAA APRIDDIR*GRSNNIGALFS* -3.09 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22001 AQSDWNTSVGSFHYSCAILY 20 SLAY-screened peptide P351 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCAGAGTGATTGGAACACTTCGGTCGGTAGTTTCCATTATAGTTGTGCTATCTTGTACTAA AQSDWNTSVGSFHYSCAILY* -3.086 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22002 LPFRWGGSVRYPMRRCTTLV 20 SLAY-screened peptide P352 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCTTTTCGTTGGGGTGGGTCTGTGCGTTACCCTATGCGCCGTTGTACTACTCTCGTCTAA LPFRWGGSVRYPMRRCTTLV* -3.08 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22003 RAHSSHRYNHVVYSISSYIY 20 SLAY-screened peptide P353 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCTCATAGCTCGCATCGTTATAACCATGTTGTCTACTCTATTTCTAGTTATATTTATTAA RAHSSHRYNHVVYSISSYIY* -3.072 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22004 AHRSGNFFPIYPSSLPMAFY 20 SLAY-screened peptide P354 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCATCGTTCGGGGAATTTTTTTCCCATTTACCCTAGTTCTCTTCCTATGGCTTTTTACTAA AHRSGNFFPIYPSSLPMAFY* -3.071 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22005 IVGDLLNKGFNSGDSFT 17 SLAY-screened peptide P355 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGTTGGCGACCTTCTTAATAAGGGGTTTAATTCGGGCGATAGCTTCACTTAGGCTAGTTAC IVGDLLNKGFNSGDSFT*ASY -3.066 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22006 PVNEDIQ 7 SLAY-screened peptide P356 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTCAACGAGGACATCCAGTAGACCCTTACGACAACCATTACCACATGAGTCTTAGCTAAC PVNEDIQ*TLTTTITT*VLAN -3.065 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22007 RENRPSHWFVTQLCYLLCRH 20 SLAY-screened peptide P357 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGAGAATAGGCCCAGCCATTGGTTTGTCACTCAGCTTTGCTATTTGCTTTGCCGCCACTAA RENRPSHWFVTQLCYLLCRH* -3.065 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22008 PATTNGSR 8 SLAY-screened peptide P358 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCGACTACTAATGGCTCTCGGTAGACGTGCGCTGACATTTGCAATTCCCTGGATTCGTAA PATTNGSR*TCADICNSLDS* -3.065 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22009 STLLKSYHIFAYSMLPFWYH 20 SLAY-screened peptide P359 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTACTTTGCTTAAGTCCTATCATATCTTTGCGTACAGTATGTTGCCTTTTTGGTACCATTAA STLLKSYHIFAYSMLPFWYH* -3.064 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22010 GSKGSCTLYFNLIGFWTPTD 20 SLAY-screened peptide P360 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTCGAAGGGCTCTTGCACGCTGTACTTTAATCTTATCGGCTTTTGGACTCCGACGGACTAA GSKGSCTLYFNLIGFWTPTD* -3.063 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22011 RCHLHCYTTLNDPPHHRVS 19 SLAY-screened peptide P361 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTGTCACCTTCACTGTTACACTACCTTGAACGACCCTCCCCACCATCGTGTCAGCTAGTAA RCHLHCYTTLNDPPHHRVS** -3.061 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22012 LPEISHTRR 9 SLAY-screened peptide P362 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCCGAGATCAGCCACACTCGTCGTTAGATCCCGAAGGAGCGCTGTCACCGTTACAATTAA LPEISHTRR*IPKERCHRYN* -3.059 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22013 HTIVLLTLVTLRRRLYSFLK 20 SLAY-screened peptide P363 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACCATCGTCTTGCTCACCCTCGTCACGCTCCGGCGCCGGCTCTATAGCTTCCTCAAGTAA HTIVLLTLVTLRRRLYSFLK* -3.058 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22014 AHLSNSIDPFHAGSVHFTPD 20 SLAY-screened peptide P364 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCATCTTAGCAACAGTATTGATCCTTTCCATGCTGGCAGCGTCCACTTCACCCCTGACTAA AHLSNSIDPFHAGSVHFTPD* -3.056 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22015 LKWYCHFNSTQNLRAQTNIG 20 SLAY-screened peptide P365 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAAGTGGTACTGTCATTTTAATAGTACCCAGAATCTGCGCGCCCAGACGAACATCGGCTAA LKWYCHFNSTQNLRAQTNIG* -3.055 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22016 CGGLLAWTGPLSECIQFWLL 20 SLAY-screened peptide P366 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGGTGGCTTGCTGGCGTGGACCGGCCCGCTGAGCGAGTGCATTCAGTTCTGGCTTCTTTAA CGGLLAWTGPLSECIQFWLL* -3.052 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22017 PP 2 SLAY-screened peptide P367 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCGTAGCCGATCACGACGCATACGTAGTCGCCGAGTAATCTGCTGGCTGTGATGATGTAA PP*PITTHT*SPSNLLAVMM* -3.052 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22018 LRGLLSFSSYQMVMDGDTITN 21 SLAY-screened peptide P368 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCGCGGCCTTCTTAGCTTCTCTTCCTATCAGATGGTTATGGACGGTGATACTATTACTAAC LRGLLSFSSYQMVMDGDTITN -3.052 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22019 TTLFNVSLHMVNTSGSTGTN 20 SLAY-screened peptide P369 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACCCTGTTTAACGTTTCCTTGCATATGGTTAATACTAGCGGTTCTACTGGTACTAACTAA TTLFNVSLHMVNTSGSTGTN* -3.05 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22020 AGNWLMAGLSLAPARPSPNG 20 SLAY-screened peptide P370 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGGCAACTGGCTTATGGCCGGTCTCAGCCTTGCTCCTGCGCGTCCTAGCCCTAATGGCTAA AGNWLMAGLSLAPARPSPNG* -3.048 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22021 LSLHCDIGFNANNTLSTDYI 20 SLAY-screened peptide P371 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCCTTGCATTGTGATATTGGTTTTAACGCCAATAATACGCTGTCCACCGATTACATTTAA LSLHCDIGFNANNTLSTDYI* -3.046 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22022 FLVAVRINFNLNIRFYIDLS 20 SLAY-screened peptide P372 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCTTGTCGCCGTGCGCATTAATTTTAACCTCAATATCCGCTTTTATATCGACCTCTCTTAA FLVAVRINFNLNIRFYIDLS* -3.042 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22023 FIPHHNHSLAYETIVSGRDP 20 SLAY-screened peptide P373 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCATTCCTCATCATAATCATAGCCTCGCTTACGAGACGATTGTTAGTGGGCGTGACCCGTAA FIPHHNHSLAYETIVSGRDP* -3.038 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22024 HHRSRKMYNWNHNEANRHYQ 20 SLAY-screened peptide P374 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCATAGGAGTCGCAAGATGTATAACTGGAACCATAACGAGGCTAACCGTCACTATCAGTAA HHRSRKMYNWNHNEANRHYQ* -3.036 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22025 IICLELANDDLCCKCHSSDD 20 SLAY-screened peptide P375 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTATTTGCCTGGAGCTGGCTAATGATGATCTCTGTTGCAAGTGTCATTCTTCCGACGACTAA IICLELANDDLCCKCHSSDD* -3.035 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22026 LAESALLRGNNSCNLTFIRN 20 SLAY-screened peptide P376 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGCCGAGAGCGCTCTGTTGCGTGGCAATAATAGTTGTAATTTGACTTTTATCAGGAACTAA LAESALLRGNNSCNLTFIRN* -3.035 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22027 YSHVCKTNTSHCYTFHYNGF 20 SLAY-screened peptide P377 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTCTCACGTTTGTAAGACTAATACTTCCCATTGTTATACTTTTCATTACAATGGCTTCTAA YSHVCKTNTSHCYTFHYNGF* -3.033 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22028 SQP 3 SLAY-screened peptide P378 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCAGCCTTAGCTGATCCCCATTACTAACTAGCATTCTAGTTCGTTCATGCCCGCCGACTAA SQP*LIPITN*HSSSFMPAD* -3.022 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22029 KHRF 4 SLAY-screened peptide P379 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCATCGCTTTTAGCATGCTTATGCGCCGTGGTACGCTTTTAACTTTGTCTGTCGCTATTAA KHRF*HAYAPWYAFNFVCRY* -3.018 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22030 LCALTQASTLSNNHTTHLAT 20 SLAY-screened peptide P380 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGCGCCCTCACTCAGGCCTCTACTCTTAGTAACAACCATACTACGCATTTGGCTACGTAA LCALTQASTLSNNHTTHLAT* -3.012 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22031 WFAPCKSAAIHAF 13 SLAY-screened peptide P381 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTTTGCCCCCTGCAAGAGTGCCGCCATCCATGCTTTTTAGCTTCTCAACCATGAGGCTTAA WFAPCKSAAIHAF*LLNHEA* -3.01 0.000101 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22032 PRTLLTTALRILYTKGLLGD 20 SLAY-screened peptide P382 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCACTTTGCTTACTACTGCGCTTCGCATTCTTTATACTAAGGGGCTTCTTGGCGACTAA PRTLLTTALRILYTKGLLGD* -3.008 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22033 VFSSAYRADAKGTSSFNSTQ 20 SLAY-screened peptide P383 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTTCTCGTCGGCGTATCGTGCTGACGCTAAGGGCACGTCGAGTTTCAACTCGACGCAGTAA VFSSAYRADAKGTSSFNSTQ* -3.008 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22034 PNISTGPSFILPLLLGCIAFN 21 SLAY-screened peptide P384 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAACATTTCTACCGGTCCAAGTTTTATACTACCCCTTCTCCTGGGTTGCATCGCATTTAAC PNISTGPSFILPLLLGCIAFN -3.008 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22035 YSTSSCSCDYQSSSYR 16 SLAY-screened peptide P385 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAGTACTTCGAGTTGTTCTTGTGATTACCAATCGTCATCTTATCGGTAACTGAGTAAGTCG YSTSSCSCDYQSSSYR*LSKS -3.006 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22036 HAALGCQHYPNMRTELDHTK 20 SLAY-screened peptide P386 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCGGCCCTCGGTTGTCAGCATTATCCGAACATGCGGACTGAGCTCGATCACACTAAGTAA HAALGCQHYPNMRTELDHTK* -3.005 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22037 ASSVSSFVLYSARSFNNSSH 20 SLAY-screened peptide P387 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTAGTTCTGTGTCCAGTTTTGTGCTCTATTCTGCTCGTTCTTTCAATAATAGTTCTCATTAA ASSVSSFVLYSARSFNNSSH* -3.004 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22038 VALDTTFSHRSPP 13 SLAY-screened peptide P388 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGCGCTTGACACTACTTTTAGTCATCGGAGTCCCCCTTAGACCTTTTATATTAAGAATTAA VALDTTFSHRSPP*TFYIKN* -3.002 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22039 LVYTDLYGFFSDLRPRNQDD 20 SLAY-screened peptide P389 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGGTGTACACTGACCTTTACGGTTTTTTTAGCGACCTTCGCCCTAGGAACCAGGACGATTAA LVYTDLYGFFSDLRPRNQDD* -3.001 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22040 KNVNHSVIVNPNFDPNTVTR 20 SLAY-screened peptide P390 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGAATGTTAATCATAGTGTCATCGTCAACCCGAATTTCGATCCGAATACTGTTACGAGGTAA KNVNHSVIVNPNFDPNTVTR* -2.997 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22041 STTLYLPGLNRIRTNDFMIT 20 SLAY-screened peptide P391 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGACCACTCTGTATCTGCCTGGTCTTAACCGGATCAGGACGAACGATTTTATGATCACCTAA STTLYLPGLNRIRTNDFMIT* -2.995 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22042 STLINVFDR 9 SLAY-screened peptide P392 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACCCTCATTAACGTTTTCGACAGGTAGGTGTATAAGTCGTGGCCGATTTACTGGTCCTAA STLINVFDR*VYKSWPIYWS* -2.993 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22043 LVTDAMWHGLHVSRCHSHYY 20 SLAY-screened peptide P393 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGTTACTGATGCCATGTGGCATGGGCTTCATGTTTCGCGTTGTCATAGTCACTACTACTAA LVTDAMWHGLHVSRCHSHYY* -2.988 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22044 GPIHDVLRMIRSSGTTHFYS 20 SLAY-screened peptide P394 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCCTATCCATGATGTGCTTAGGATGATTCGTAGCTCCGGGACGACCCACTTTTATAGCTAA GPIHDVLRMIRSSGTTHFYS* -2.986 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22045 LPTNSIRRDGLSADHHRYIRN 21 SLAY-screened peptide P395 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCCACTAATAGTATTCGTCGTGACGGCCTCAGCGCTGATCATCATCGCTACATCCGTAAC LPTNSIRRDGLSADHHRYIRN -2.985 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22046 LMRSVFLNMCIPSDYMDPSVP 21 SLAY-screened peptide P396 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATGCGTAGTGTCTTTCTTAATATGTGCATCCCTTCTGACTATATGGACCCCAGTGTGCCC LMRSVFLNMCIPSDYMDPSVP -2.98 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22047 NKNPIRLSFYPHNYYLYSSV 20 SLAY-screened peptide P397 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATAAGAATCCCATCAGGCTTAGTTTCTATCCTCATAATTATTATTTGTATTCCAGTGTTTAA NKNPIRLSFYPHNYYLYSSV* -2.977 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22048 TSLCFVIILNLKSDMAG 17 SLAY-screened peptide P398 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCTCTGTGCTTCGTCATTATTCTTAATCTCAAGAGTGATATGGCGGGCTAGTGTTCGTAA TSLCFVIILNLKSDMAG*CS* -2.975 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22049 HNNPPAPNGPHSTFIADNAS 20 SLAY-screened peptide P399 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAACAATCCGCCGGCCCCTAACGGGCCTCATAGTACGTTTATCGCTGATAATGCTAGTTAA HNNPPAPNGPHSTFIADNAS* -2.97 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22050 WTYFHSNPHEYQLNLLIANM 20 SLAY-screened peptide P400 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGACCTACTTTCATAGTAACCCGCATGAGTATCAGCTTAACCTTCTTATTGCCAATATGTAA WTYFHSNPHEYQLNLLIANM* -2.966 0.000063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22051 LIFTLQNRLQPVAMHKPCYS 20 SLAY-screened peptide P401 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATCTTTACCTTGCAGAACCGCCTCCAGCCGGTGGCCATGCATAAGCCCTGTTACTCCTAA LIFTLQNRLQPVAMHKPCYS* -2.962 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22052 PDHNNHT 7 SLAY-screened peptide P402 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGATCACAATAATCATACGTAGTTCATGTTTAGTACCACTACGTTGTACCATGAGCCGTAA PDHNNHT*FMFSTTTLYHEP* -2.96 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22053 YHNHSHD 7 SLAY-screened peptide P403 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCATAATCACTCTCATGATTAGGATGCCGCCCTGTACCTTGGTTCCATGTAGATGATCTAA YHNHSHD*DAALYLGSM*MI* -2.958 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22054 ALTQHRLGLRNIPQNLYIMV 20 SLAY-screened peptide P404 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCTCACTCAGCATCGTCTCGGGCTTAGGAATATCCCTCAGAATCTCTATATTATGGTCTAA ALTQHRLGLRNIPQNLYIMV* -2.955 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22055 ASFTHPPIMAPPIYASSEVE 20 SLAY-screened peptide P405 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTCTTTTACTCATCCTCCTATCATGGCCCCGCCTATCTACGCTTCTAGTGAGGTTGAGTAA ASFTHPPIMAPPIYASSEVE* -2.955 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22056 HTLQQLRCPHCSLSNNSMVY 20 SLAY-screened peptide P406 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACTCTTCAGCAGCTTCGTTGTCCGCATTGCAGCCTTAGCAATAATTCTATGGTGTACTAA HTLQQLRCPHCSLSNNSMVY* -2.951 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22057 TISRGNSPPSANTALLMNYI 20 SLAY-screened peptide P407 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGATTTCTCGCGGTAATTCGCCTCCTTCTGCTAATACTGCGCTTCTCATGAACTACATTTAA TISRGNSPPSANTALLMNYI* -2.948 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22058 TSPMQSLRLLTSISLKNRVM 20 SLAY-screened peptide P408 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCTCCTATGCAGTCCCTGCGTCTCCTCACGAGCATCTCGTTGAAGAACAGGGTTATGTAA TSPMQSLRLLTSISLKNRVM* -2.945 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22059 IAVGPVGRIRFPRLTFRFTL 20 SLAY-screened peptide P409 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCCGTGGGCCCTGTGGGCCGCATCCGTTTTCCTAGGCTCACTTTTCGCTTTACCCTGTAA IAVGPVGRIRFPRLTFRFTL* -2.944 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22060 SGRQTGNHNCYMSLQLLTIC 20 SLAY-screened peptide P410 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGGCCGTCAGACGGGGAACCATAATTGTTATATGTCTCTTCAGCTCCTGACCATCTGCTAA SGRQTGNHNCYMSLQLLTIC* -2.939 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22061 QSAAGMPSVD 10 SLAY-screened peptide P411 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTCCGCCGCTGGTATGCCTAGCGTTGATTAGGTGTTGTATCCTCATGTGCGTTCCGTTTAA QSAAGMPSVD*VLYPHVRSV* -2.937 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22062 PRIFCILLPRPCSGHVFYAS 20 SLAY-screened peptide P412 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGGATTTTCTGTATTTTGCTTCCTCGGCCCTGTTCTGGCCACGTGTTCTATGCTAGTTAA PRIFCILLPRPCSGHVFYAS* -2.927 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22063 VSFFTVPLWHCLPSDLLALN 20 SLAY-screened peptide P413 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTCTTTTTTTACCGTGCCGCTGTGGCATTGTCTGCCGAGTGATCTTTTGGCGCTGAATTAA VSFFTVPLWHCLPSDLLALN* -2.919 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22064 ALRTMY 6 SLAY-screened peptide P414 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCTTCGCACTATGTATTAGTTTTACAATTATATCTTACCTGTAAGAACAATAGGAATTAAC ALRTMY*FYNYILPVRTIGIN -2.911 0.000044 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22065 RTLPFCAPGIVLTLI 15 SLAY-screened peptide P415 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGAACGTTACCATTTTGCGCACCGGGAATAGTTCTTACACTTATATGACCATCTTGTTCTAAC RTLPFCAPGIVLTLI*PSCSN -2.911 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22066 CVVDPLY 7 SLAY-screened peptide P416 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTCGTGGACCCTCTCTATTAGTATTGGGCCATCCTCTCCTTTTGCCGTAGGTACCCTTAA CVVDPLY*YWAILSFCRRYP* -2.903 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22067 RPIIPYSAHSYLCVTTYNPT 20 SLAY-screened peptide P417 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCCATTATTCCTTATAGCGCTCACTCTTATCTGTGTGTCACCACCTACAATCCTACGTAA RPIIPYSAHSYLCVTTYNPT* -2.902 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22068 LRVPIVPISS 10 SLAY-screened peptide P418 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCGTGTGCCCATTGTTCCTATTTCGAGTTAGTGTCAGAACGTCTTCAATGGCGACTCTTAA LRVPIVPISS*CQNVFNGDS* -2.901 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22069 YRHTAN 6 SLAY-screened peptide P419 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAGGCACACTGCTAACTAGCTCCGTGAGTATCTTGGGTAGGCGACGCTGGAGAGTGCTTAA YRHTAN*LREYLG*ATLESA* -2.899 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22070 RAN 3 SLAY-screened peptide P420 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCGAATTAGCACCTCCCTCATGAGACTCATGATACGGTTGAGTCGTCCATGAATAGCTAA RAN*HLPHETHDTVESSMNS* -2.892 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22071 MLDYFLGHSYLSLVDEDPNR 20 SLAY-screened peptide P421 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTTGGACTACTTTCTCGGTCACAGTTATCTCAGCCTCGTTGATGAGGATCCTAACAGGTAA MLDYFLGHSYLSLVDEDPNR* -2.888 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22072 APLFFGLCIVCTTDGRRKSF 20 SLAY-screened peptide P422 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCCTTGTTTTTTGGCCTTTGTATCGTCTGTACTACGGATGGTCGCCGGAAGAGCTTTTAA APLFFGLCIVCTTDGRRKSF* -2.885 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22073 TCVDITATICAVTWIVIDFA 20 SLAY-screened peptide P423 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGTGTTGATATTACTGCGACTATTTGTGCTGTTACGTGGATTGTGATTGATTTTGCCTAA TCVDITATICAVTWIVIDFA* -2.884 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22074 NLL 3 SLAY-screened peptide P424 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCTGCTGTAGCTTTATTAGAATTCGGTTCAGAGCCTTGTTACGGGTTGCCATTGGTTTTAA NLL*LY*NSVQSLVTGCHWF* -2.884 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22075 DWTYTYVSRPIASLADLHAI 20 SLAY-screened peptide P425 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTGGACCTACACTTATGTGTCCCGGCCTATTGCTTCTCTTGCTGACCTCCATGCGATCTAA DWTYTYVSRPIASLADLHAI* -2.879 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22076 MAGSVAYTSSFSNPCTVNHY 20 SLAY-screened peptide P426 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGCCGGTTCCGTTGCCTATACTTCGTCGTTCTCTAACCCTTGTACTGTCAATCATTATTAA MAGSVAYTSSFSNPCTVNHY* -2.876 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22077 LIFIVLSHSTPHARGPPGRA 20 SLAY-screened peptide P427 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGATTTTTATCGTGCTTTCCCATAGTACGCCGCACGCGAGGGGCCCCCCGGGGCGTGCCTAA LIFIVLSHSTPHARGPPGRA* -2.876 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22078 LLFAFPVPGNVPEVLAENTP 20 SLAY-screened peptide P428 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTTTTTGCTTTCCCTGTCCCTGGTAATGTCCCTGAGGTTCTTGCTGAGAACACTCCCTAA LLFAFPVPGNVPEVLAENTP* -2.867 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22079 DIVSLSRRIPFERTFDPK 18 SLAY-screened peptide P429 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATATTGTGTCCTTGTCGCGTAGGATCCCCTTTGAGCGCACGTTTGACCCCAAGTAGAAGTAA DIVSLSRRIPFERTFDPK*K* -2.866 0.000048 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22080 NFHDETIKLLSPNLYALAIS 20 SLAY-screened peptide P430 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTTCCACGATGAGACTATTAAGTTGCTTAGTCCTAATCTCTACGCGCTGGCTATTAGTTAA NFHDETIKLLSPNLYALAIS* -2.864 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22081 PAVGNYSYVFINSLTAGFLV 20 SLAY-screened peptide P431 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCCGTGGGCAACTATTCTTACGTGTTCATTAACAGCCTTACTGCGGGTTTTCTGGTGTAA PAVGNYSYVFINSLTAGFLV* -2.862 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22082 SRITANNSHIITRETKLCYW 20 SLAY-screened peptide P432 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGGATTACCGCTAATAATAGCCATATTATTACCCGTGAGACCAAGTTGTGCTACTGGTAA SRITANNSHIITRETKLCYW* -2.862 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22083 HGHASDYIDPHGAQC 15 SLAY-screened peptide P433 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGGGCATGCGTCCGATTACATTGACCCGCATGGGGCCCAGTGTTAGACCAGGTGCCACTAA HGHASDYIDPHGAQC*TRCH* -2.856 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22084 CNSYPVYDHHSHTAYDQFQ 19 SLAY-screened peptide P434 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAATAGTTACCCTGTGTATGATCATCACAGTCACACGGCTTATGATCAGTTTCAGTAGTAA CNSYPVYDHHSHTAYDQFQ** -2.855 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22085 YGGYSIRFSHYYIYMSSPHL 20 SLAY-screened peptide P435 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGGCGGGTATTCTATCAGGTTCTCCCATTATTATATTTACATGTCCAGTCCGCATTTGTAA YGGYSIRFSHYYIYMSSPHL* -2.854 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22086 CID 3 SLAY-screened peptide P436 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCATTGATTAGTCTAGCGCTCTGCTGCGGCCGAGTATGTAGATGCAGGTTTCTCCCGTTTAA CID*SSALLRPSM*MQVSPV* -2.852 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22087 PSAAVGLIPFLMARANYYLT 20 SLAY-screened peptide P437 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGTGCGGCCGTCGGCCTGATCCCCTTTCTTATGGCTAGGGCGAACTACTATCTGACGTAA PSAAVGLIPFLMARANYYLT* -2.851 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22088 TLETRFYLFYTLDTMMSKHN 20 SLAY-screened peptide P438 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTGGAGACTCGCTTTTACCTTTTTTATACTCTTGACACGATGATGTCGAAGCACAACTAA TLETRFYLFYTLDTMMSKHN* -2.851 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22089 CRNCVYHHYNISPNASPASD 20 SLAY-screened peptide P439 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAGGAACTGCGTTTATCACCATTACAATATTAGCCCTAATGCCTCGCCTGCTTCCGATTAA CRNCVYHHYNISPNASPASD* -2.849 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22090 DHPSTCHHGVGPCLFLNYNI 20 SLAY-screened peptide P440 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCACCCTAGTACCTGTCATCATGGCGTTGGCCCGTGCCTCTTTCTCAATTACAATATCTAA DHPSTCHHGVGPCLFLNYNI* -2.846 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22091 IDHCIVGVRNSLARVLANGF 20 SLAY-screened peptide P441 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGATCATTGTATTGTGGGCGTTCGCAATAGCTTGGCGAGGGTTCTCGCGAACGGGTTTTAA IDHCIVGVRNSLARVLANGF* -2.842 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22092 SYNGPSDSPHTHSRHCSFQR 20 SLAY-screened peptide P442 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTATAATGGTCCTTCCGATTCTCCCCATACTCATTCTCGGCATTGTTCGTTCCAGCGCTAA SYNGPSDSPHTHSRHCSFQR* -2.84 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22093 YIGVPGLASRYVLSVLLHGV 20 SLAY-screened peptide P443 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATATCGGTGTTCCGGGTCTGGCCTCCCGTTACGTTCTTTCTGTCTTGCTTCACGGTGTCTAA YIGVPGLASRYVLSVLLHGV* -2.839 0.000025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22094 VEHPISLRFFFGVRSVCVIN 20 SLAY-screened peptide P444 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGAGCACCCTATTAGCCTGCGCTTTTTTTTCGGTGTGCGCAGCGTTTGCGTTATTAATTAA VEHPISLRFFFGVRSVCVIN* -2.839 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22095 WLPPHRDPRL 10 SLAY-screened peptide P445 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCTGCCCCCGCATCGCGACCCCAGGCTTTAGTCCTCCCTGCCTGCTCAGCCGGACGTCTAA WLPPHRDPRL*SSLPAQPDV* -2.839 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22096 EILLLIRIGILILWIMISLGN 21 SLAY-screened peptide P446 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGATACTTCTTCTCATACGCATAGGCATACTAATTTTGTGGATAATGATCTCACTGGGTAAC EILLLIRIGILILWIMISLGN -2.836 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22097 YFTHPHIYAVSPTVTQFFIA 20 SLAY-screened peptide P447 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTTCACTCATCCTCATATTTATGCTGTGTCTCCCACTGTCACCCAGTTTTTTATTGCCTAA YFTHPHIYAVSPTVTQFFIA* -2.835 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22098 FTQAREAPCTPDMSSDH 17 SLAY-screened peptide P448 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTACCCAGGCGCGCGAGGCGCCCTGCACCCCCGACATGTCTAGTGATCATTAGTTTCGCTAA FTQAREAPCTPDMSSDH*FR* -2.834 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22099 CPTVLDYHSRDSTTTFSLEP 20 SLAY-screened peptide P449 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCGACTGTGCTTGACTACCATTCGCGCGATTCTACTACTACGTTTTCGCTCGAGCCCTAA CPTVLDYHSRDSTTTFSLEP* -2.832 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22100 FTPTCCVTRLHTSAQLRVRH 20 SLAY-screened peptide P450 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTACCCCGACTTGCTGCGTCACTCGCCTGCATACTAGCGCTCAGCTTCGCGTTAGGCATTAA FTPTCCVTRLHTSAQLRVRH* -2.831 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22101 RPNWNIRSCIQCEFQIQ 17 SLAY-screened peptide P451 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCGAATTGGAATATCAGGAGTTGCATCCAGTGCGAGTTTCAGATTCAGTAGTATATGTAA RPNWNIRSCIQCEFQIQ*YM* -2.831 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22102 TAPRVAAPHTLHCNRWWLTP 20 SLAY-screened peptide P452 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCGCCCCGGGTCGCCGCCCCGCATACGCTTCACTGTAATCGTTGGTGGCTCACCCCTTAA TAPRVAAPHTLHCNRWWLTP* -2.829 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22103 DLYHSYHDCHHNTA 14 SLAY-screened peptide P453 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCTCTATCATAGTTATCACGATTGCCATCATAATACTGCTTAGTTTATGAACACCTATTAA DLYHSYHDCHHNTA*FMNTY* -2.828 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22104 TPRDVDADLGPVATPRTIFM 20 SLAY-screened peptide P454 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCCCGCGATGTGGATGCTGATCTGGGTCCTGTCGCCACTCCCCGTACCATCTTTATGTAA TPRDVDADLGPVATPRTIFM* -2.826 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22105 LSSNDRPAKYKDSDCGHSYL 20 SLAY-screened peptide P455 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAGCAGCAACGATCGCCCCGCCAAGTACAAGGATAGTGACTGCGGTCATTCCTATTTGTAA LSSNDRPAKYKDSDCGHSYL* -2.826 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22106 TNGHDRKKDTFSCPFISNRH 20 SLAY-screened peptide P456 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAACGGGCACGACCGTAAGAAGGATACGTTTTCGTGTCCTTTTATCAGTAACCGTCATTAA TNGHDRKKDTFSCPFISNRH* -2.825 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22107 NSPFFQNNRYIHAAFDSDLT 20 SLAY-screened peptide P457 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAGCCCGTTTTTTCAGAATAACCGCTACATTCACGCGGCTTTCGATAGCGACCTCACTTAA NSPFFQNNRYIHAAFDSDLT* -2.824 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22108 SSFRETYYYIPALYFVWGTR 20 SLAY-screened peptide P458 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCTTTCCGGGAGACTTACTATTATATTCCCGCTCTGTACTTTGTTTGGGGTACGCGCTAA SSFRETYYYIPALYFVWGTR* -2.823 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22109 LYVSIILLVGRITFCMTILSN 21 SLAY-screened peptide P459 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTACGTTTCTATCATCTTGCTTGTCGGTCGAATAACCTTCTGCATGACCATACTGTCTAAC LYVSIILLVGRITFCMTILSN -2.819 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22110 FHQKVSGILNRDSINHFDSA 20 SLAY-screened peptide P460 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCATCAGAAGGTGTCCGGGATCCTTAACCGTGATTCTATTAATCATTTCGATTCTGCTTAA FHQKVSGILNRDSINHFDSA* -2.818 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22111 VLSNARSGTFATHGYLLVRY 20 SLAY-screened peptide P461 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCTTAGCAATGCTAGGTCTGGGACTTTTGCTACGCATGGGTACCTTCTTGTGCGCTATTAA VLSNARSGTFATHGYLLVRY* -2.818 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22112 AMSHLLHRQYPHIRSNDPDA 20 SLAY-screened peptide P462 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCATGTCGCATCTCCTTCATCGCCAGTATCCTCATATCCGGAGTAATGATCCGGATGCTTAA AMSHLLHRQYPHIRSNDPDA* -2.814 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22113 YGYCCESPGFQPFGRANGSE 20 SLAY-screened peptide P463 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGGTTACTGTTGCGAGTCCCCGGGGTTCCAGCCTTTCGGCCGCGCTAACGGCTCTGAGTAA YGYCCESPGFQPFGRANGSE* -2.812 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22114 DFVNRLRRFLCNRMHPNAAH 20 SLAY-screened peptide P464 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTTCGTCAATCGGCTGCGTCGGTTTTTGTGCAACCGGATGCACCCCAATGCCGCCCATTAA DFVNRLRRFLCNRMHPNAAH* -2.811 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22115 YLHRPLFSCDLMYVV 15 SLAY-screened peptide P465 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCTTCACCGGCCGCTGTTCTCGTGCGATCTTATGTATGTTGTTTAGCCTTCTCTGCACTAA YLHRPLFSCDLMYVV*PSLH* -2.798 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22116 YMHCSHPCPDLYR 13 SLAY-screened peptide P466 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATATGCATTGTTCTCATCCTTGTCCGGATCTTTACAGGTGACCCTCAATAATATTTGGTAAC YMHCSHPCPDLYR*PSIIFGN -2.798 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22117 TLFTSNQCPYYHHSSTCYRS 20 SLAY-screened peptide P467 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCTTTTTACCTCGAATCAGTGTCCGTATTACCATCACAGTAGTACCTGCTACAGGTCCTAA TLFTSNQCPYYHHSSTCYRS* -2.797 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22118 CPNISTNCRDTDIKKELSTRN 21 SLAY-screened peptide P468 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCTAATATTAGTACTAATTGTCGCGATACTGACATTAAGAAGGAACTTTCGACACGTAAC CPNISTNCRDTDIKKELSTRN -2.796 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22119 TQNYLSDT 8 SLAY-screened peptide P469 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCAGAATTATTTGTCCGATACGTAGAACCGCCCTATCGCGTTCGCTCGCGGTAATCTGTAA TQNYLSDT*NRPIAFARGNL* -2.795 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22120 ARHVFRTNIVLLDIDYSNMS 20 SLAY-screened peptide P470 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGCCATGTTTTTCGGACTAATATTGTTCTTCTTGATATTGACTATAGCAATATGTCCTAA ARHVFRTNIVLLDIDYSNMS* -2.792 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22121 VVHLVGFTNNRHRDDL 16 SLAY-screened peptide P471 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGTCCACCTGGTTGGGTTTACTAATAACCGTCATCGGGATGATCTCTAGCACCGCTATTAA VVHLVGFTNNRHRDDL*HRY* -2.791 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22122 RDFSWGTPRYWNHMYYNNIL 20 SLAY-screened peptide P472 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGATTTTAGCTGGGGCACTCCGAGGTACTGGAATCATATGTACTATAATAATATCCTTTAA RDFSWGTPRYWNHMYYNNIL* -2.791 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22123 GNRVPATVCPIAISIPLMVD 20 SLAY-screened peptide P473 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTAACCGCGTTCCTGCGACGGTCTGCCCTATTGCTATTTCGATCCCCCTTATGGTCGACTAA GNRVPATVCPIAISIPLMVD* -2.788 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22124 CPSPKCAIVYQTIGPALPRA 20 SLAY-screened peptide P474 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCTAGTCCTAAGTGTGCTATTGTTTACCAGACTATCGGCCCTGCGCTCCCTCGGGCCTAA CPSPKCAIVYQTIGPALPRA* -2.785 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22125 KR 2 SLAY-screened peptide P475 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCGCTAGACTCGTACTGGTCGTTTCATCATCGATCACACTAAGCAGAAGGATAGGTACTAA KR*TRTGRFIIDHTKQKDRY* -2.785 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22126 ITNIVTMQGAHSGFHRDTRT 20 SLAY-screened peptide P476 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCACTAATATTGTTACTATGCAGGGTGCTCACAGTGGGTTCCACCGCGACACGAGGACGTAA ITNIVTMQGAHSGFHRDTRT* -2.783 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22127 GTTSNCDIYANIYTTDLYCG 20 SLAY-screened peptide P477 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCACTACTAGCAATTGTGACATCTACGCGAACATTTACACTACTGACCTTTACTGCGGTTAA GTTSNCDIYANIYTTDLYCG* -2.78 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22128 YQSPSHGYGFPLMNPCYILA 20 SLAY-screened peptide P478 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCAGTCTCCTTCGCATGGTTATGGCTTCCCTTTGATGAACCCTTGCTATATTCTGGCCTAA YQSPSHGYGFPLMNPCYILA* -2.775 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22129 STILSTTI 8 SLAY-screened peptide P479 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACCATCTTGAGTACTACTATCTAGGCCTCTGCGATTGATTGGACGACGCTCTATCTTTAA STILSTTI*ASAIDWTTLYL* -2.77 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22130 DFLRCLTDLNKDITTLQSLD 20 SLAY-screened peptide P480 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTTCCTCCGTTGCCTCACTGATCTTAACAAGGATATTACTACGCTTCAGAGTCTCGACTAA DFLRCLTDLNKDITTLQSLD* -2.769 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22131 CSYLGFGKFFYL 12 SLAY-screened peptide P481 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTCTTATCTCGGCTTTGGCAAGTTTTTCTATCTCTAGAAGCCTTACCTCTTGCGTGAGTAA CSYLGFGKFFYL*KPYLLRE* -2.763 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22132 ASIHSSGKRPTFTAHRMLVE 20 SLAY-screened peptide P482 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTCCATTCACAGTTCGGGGAAGCGTCCGACTTTCACCGCTCACAGGATGTTGGTGGAGTAA ASIHSSGKRPTFTAHRMLVE* -2.76 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22133 RQPDWAVLGSVQCPSPNRPF 20 SLAY-screened peptide P483 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCAGCCGGATTGGGCGGTCCTCGGCTCTGTCCAGTGTCCGTCTCCTAATCGTCCTTTTTAA RQPDWAVLGSVQCPSPNRPF* -2.757 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22134 IPTPF 5 SLAY-screened peptide P484 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATACCGACTCCATTTTGAAGAATCTGTGTGACTTCTACAAGCGGACTCTCACCCACTATTAAC IPTPF*RICVTSTSGLSPTIN -2.754 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22135 LEPDFPWCGYNCGNRRRHHS 20 SLAY-screened peptide P485 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGAGCCGGACTTCCCCTGGTGTGGCTACAACTGTGGTAACCGTAGGCGGCATCATTCTTAA LEPDFPWCGYNCGNRRRHHS* -2.753 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22136 TAPITLIRGPPSGHGYSACH 20 SLAY-screened peptide P486 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCCCCTATCACTCTCATCCGCGGCCCGCCGAGCGGGCATGGTTACAGTGCGTGTCATTAA TAPITLIRGPPSGHGYSACH* -2.752 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22137 SPIIKLYNEDVAHYDDLNI 19 SLAY-screened peptide P487 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCCGATTATTAAGCTCTACAATGAGGATGTTGCTCATTATGACGACCTTAACATCTAGTAA SPIIKLYNEDVAHYDDLNI** -2.751 0.000032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22138 PPLFSGSGCNNHADYRSTSS 20 SLAY-screened peptide P488 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTCTTTTTAGCGGTTCTGGTTGCAATAACCATGCTGACTATCGGTCCACTAGTTCCTAA PPLFSGSGCNNHADYRSTSS* -2.749 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22139 TDSMDFRSFDDAVGDIVYSA 20 SLAY-screened peptide P489 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGATAGTATGGACTTCCGTAGCTTTGACGACGCCGTCGGGGATATCGTTTACTCTGCGTAA TDSMDFRSFDDAVGDIVYSA* -2.748 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22140 PATATGRCIGPVPYSTSDNL 20 SLAY-screened peptide P490 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCGACTGCCACGGGGCGCTGTATCGGCCCCGTGCCTTATTCTACCTCCGACAATCTTTAA PATATGRCIGPVPYSTSDNL* -2.747 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22141 DIPNLRVYYYDRHFTLIYMK 20 SLAY-screened peptide P491 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATATCCCTAACTTGCGCGTCTACTATTACGACCGTCACTTTACGCTTATTTATATGAAGTAA DIPNLRVYYYDRHFTLIYMK* -2.745 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22142 RNNNNSHAIHCSNTRDLGAC 20 SLAY-screened peptide P492 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAATAACAATAACAGCCATGCTATCCATTGTAGCAATACGAGGGATTTGGGTGCCTGTTAA RNNNNSHAIHCSNTRDLGAC* -2.744 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22143 GLVIRTGGTLTFSSIIPTTK 20 SLAY-screened peptide P493 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCTGGTCATTCGTACTGGCGGTACGCTCACTTTTAGTAGTATCATCCCTACGACCAAGTAA GLVIRTGGTLTFSSIIPTTK* -2.744 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22144 HPSTWTMFTIDKSTLSFWTT 20 SLAY-screened peptide P494 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTAGTACTTGGACTATGTTTACTATTGACAAGAGCACGCTCTCCTTCTGGACCACTTAA HPSTWTMFTIDKSTLSFWTT* -2.741 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22145 TRSTLLCCRSILML 14 SLAY-screened peptide P495 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCGATCAACATTGCTTTGCTGCCGTTCTATATTAATGCTTTGAGAAGCGGTTTCATTAACT TRSTLLCCRSILML*EAVSLT -2.74 0.000062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22146 HCSTRLITLATPPTSQFFNS 20 SLAY-screened peptide P496 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTGTAGTACGCGTCTCATCACTCTTGCTACCCCTCCTACGTCTCAGTTTTTTAATAGTTAA HCSTRLITLATPPTSQFFNS* -2.734 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22147 LRVSEESGSSCRIAGILRGMS 21 SLAY-screened peptide P497 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGGGTATCGGAGGAGAGCGGTTCTTCCTGTCGTATTGCGGGTATACTTCGCGGGATGTCT LRVSEESGSSCRIAGILRGMS -2.732 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22148 FSLYIRTYTNYKTNIILYII 20 SLAY-screened peptide P498 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTCGCTGTATATCCGCACTTATACTAACTATAAGACTAATATTATTCTCTATATCATTTAA FSLYIRTYTNYKTNIILYII* -2.732 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22149 VPMGCSPAPWYNHFGKRSYM 20 SLAY-screened peptide P499 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCCTATGGGCTGTAGCCCTGCTCCTTGGTACAATCATTTCGGTAAGCGCAGCTATATGTAA VPMGCSPAPWYNHFGKRSYM* -2.731 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22150 RPCFTSVFNSPFFFHNTQQF 20 SLAY-screened peptide P500 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCTTGCTTCACTTCGGTCTTTAACAGCCCTTTTTTTTTTCATAACACGCAGCAGTTCTAA RPCFTSVFNSPFFFHNTQQF* -2.731 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22151 CPSARCYFCRSVNITDCNTH 20 SLAY-screened peptide P501 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCTAGTGCTCGTTGTTACTTCTGTCGTAGTGTTAATATTACGGATTGTAATACTCACTAA CPSARCYFCRSVNITDCNTH* -2.73 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22152 HPHPITFDFRRPHTLVPPPS 20 SLAY-screened peptide P502 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCCCACCCTATCACTTTTGATTTTCGTCGCCCCCATACTTTGGTCCCTCCGCCTTCGTAA HPHPITFDFRRPHTLVPPPS* -2.729 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22153 TPVYTYNLISTWPARETVYL 20 SLAY-screened peptide P503 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCCGTTTATACGTACAATCTCATTTCCACCTGGCCGGCGCGCGAGACTGTCTACTTGTAA TPVYTYNLISTWPARETVYL* -2.727 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22154 QVTHGLPMAII 11 SLAY-screened peptide P504 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGTCACTCATGGGTTGCCTATGGCCATTATTTAGTTGCATCCTGCCGACGGTGCTGTCTAA QVTHGLPMAII*LHPADGAV* -2.727 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22155 PLVLDITWEYALARHNNNLL 20 SLAY-screened peptide P505 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTTGGTCCTGGACATTACTTGGGAGTACGCTTTGGCCCGTCACAACAATAATTTGCTTTAA PLVLDITWEYALARHNNNLL* -2.72 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22156 LRRGDSHFSLVNFYNNTAYY 20 SLAY-screened peptide P506 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGCAGGGGCGACAGCCATTTCAGCCTTGTCAATTTCTATAATAATACGGCTTACTATTAA LRRGDSHFSLVNFYNNTAYY* -2.715 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22157 ILCRHVFPRPCDTTYSSDRD 20 SLAY-screened peptide P507 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTTGTGCCGCCACGTTTTTCCTCGGCCCTGCGACACCACTTATAGTTCTGATAGGGATTAA ILCRHVFPRPCDTTYSSDRD* -2.715 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22158 RIC 3 SLAY-screened peptide P508 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGATTTGTTAGCTGCCCGTTAACTATAACGAGCGGACCGATGTCCCGAAGGTCGCTTCCTAA RIC*LPVNYNERTDVPKVAS* -2.712 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22159 CRHLPGVELVKISL 14 SLAY-screened peptide P509 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGCCACCTTCCTGGCGTGGAGCTTGTTAAGATTTCTTTGTAGTTCAGTACTTATGCGTAA CRHLPGVELVKISL*FSTYA* -2.712 0.000057 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22160 HRLGTLRSALLLFCIYVLVR 20 SLAY-screened peptide P510 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCGCTTGGGCACTCTGCGTTCTGCGCTTCTTCTTTTCTGCATCTATGTCCTTGTTCGTTAA HRLGTLRSALLLFCIYVLVR* -2.711 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22161 PG 2 SLAY-screened peptide P511 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGGGTAGTACAGCTAATCCCCTGTGCCTATGTGAGTTTCACGAAGCGTTTTCATGCCTAAC PG*YS*SPVPM*VSRSVFMPN -2.711 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22162 FNPSLNWTNFVRPVTMVSQT 20 SLAY-screened peptide P512 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTAACCCGTCGCTTAACTGGACTAATTTTGTGCGGCCTGTTACCATGGTTAGCCAGACCTAA FNPSLNWTNFVRPVTMVSQT* -2.71 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22163 RPMRLKAYQPHHPPHYRWIE 20 SLAY-screened peptide P513 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCCATGCGCCTCAAGGCTTATCAGCCTCATCATCCTCCGCATTATCGTTGGATTGAGTAA RPMRLKAYQPHHPPHYRWIE* -2.708 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22164 YHDCAPPQLSLGDLYTLIAS 20 SLAY-screened peptide P514 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCACGACTGTGCTCCTCCCCAGTTGAGTCTTGGTGATCTTTATACGCTTATCGCGTCCTAA YHDCAPPQLSLGDLYTLIAS* -2.706 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22165 NPSLRIYYDNSSCRYKPWLN 20 SLAY-screened peptide P515 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCCTTCTCTTCGTATCTATTACGACAATAGTAGTTGTCGCTATAAGCCCTGGCTCAACTAA NPSLRIYYDNSSCRYKPWLN* -2.703 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22166 VFFWSLVLVRRLSKRQP 17 SLAY-screened peptide P516 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTTTTTTTGGTCGCTGGTCCTTGTTAGGAGGCTTTCGAAGCGTCAGCCCTAGACTCCCTAA VFFWSLVLVRRLSKRQP*TP* -2.702 0.03098 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22167 GASHLRAYPYIRNVTSFTLY 20 SLAY-screened peptide P517 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGGCGTCTCATCTCCGTGCTTATCCTTATATTCGGAATGTCACGTCTTTTACTCTTTATTAA GASHLRAYPYIRNVTSFTLY* -2.699 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22168 STLLTRNLYDYRWQCCAWSI 20 SLAY-screened peptide P518 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCACTCTGCTTACTAGGAATTTGTATGACTATCGTTGGCAGTGTTGCGCTTGGTCTATTTAA STLLTRNLYDYRWQCCAWSI* -2.697 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22169 TGLSNDHGDYYSQSKCGEVGY 21 SLAY-screened peptide P519 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGTTTGTCCAATGACCATGGGGACTACTACTCTCAGTCTAAGTGTGGGGAGGTGGGCTAC TGLSNDHGDYYSQSKCGEVGY -2.697 0.000036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22170 NDKSNSYPSFDLFCDSVALP 20 SLAY-screened peptide P520 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGATAAGAGCAATTCCTACCCTAGTTTTGACTTGTTTTGCGATTCCGTGGCGCTCCCCTAA NDKSNSYPSFDLFCDSVALP* -2.694 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22171 DCLYLYALPASLHCYLIRHA 20 SLAY-screened peptide P521 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTGCCTGTACCTTTACGCGCTCCCTGCTTCGTTGCACTGTTACCTTATTCGTCACGCCTAA DCLYLYALPASLHCYLIRHA* -2.694 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22172 YRFNLGFLYVNDQLCTRTDR 20 SLAY-screened peptide P522 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCGCTTTAATCTCGGCTTCCTTTATGTCAACGATCAGCTTTGTACTCGTACTGACCGCTAA YRFNLGFLYVNDQLCTRTDR* -2.694 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22173 ILRYHRCTDHKQRRHGRRPI 20 SLAY-screened peptide P523 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCTTCGGTATCATCGTTGTACTGATCATAAGCAGCGGCGTCATGGGAGGCGTCCCATTTAA ILRYHRCTDHKQRRHGRRPI* -2.693 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22174 TLNATVNSCSVNCL 14 SLAY-screened peptide P524 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTCAACGCCACTGTTAATAGTTGTAGTGTCAATTGTCTCTAGGCCGCTCTGCGTACGTAA TLNATVNSCSVNCL*AALRT* -2.693 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22175 AAGRSITYSWAVLRLCPHWF 20 SLAY-screened peptide P525 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGCCGGTCGCAGCATCACCTACAGTTGGGCTGTGCTCAGGCTTTGCCCCCACTGGTTCTAA AAGRSITYSWAVLRLCPHWF* -2.692 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22176 LTSLFLKDSPYNSSNAPELT 20 SLAY-screened peptide P526 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACTAGCCTGTTCCTCAAGGACAGCCCTTATAATAGTTCTAATGCGCCTGAGTTGACCTAA LTSLFLKDSPYNSSNAPELT* -2.69 0.000034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22177 YTT 3 SLAY-screened peptide P527 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATACTACTTAGATGCGTACCACGTCGATTTACAATAATTGCTTTACCGCTCTTGTGCCCTAA YTT*MRTTSIYNNCFTALVP* -2.689 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22178 PPGVLAHVHLGLASSART 18 SLAY-screened peptide P528 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCCGGGGTGCTGGCCCATGTGCATCTGGGCCTCGCCTCGTCCGCTAGGACCTAGCAGTAA PPGVLAHVHLGLASSART*Q* -2.689 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22179 SSKQFQ 6 SLAY-screened peptide P529 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTCTAAGCAGTTCCAGTAGGACTCGTGCCCGAGCGGCCCCCAGCACACCTTGACGGCTTAA SSKQFQ*DSCPSGPQHTLTA* -2.689 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22180 TLG 3 SLAY-screened peptide P530 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTGGGGTAGGAGAGGTGGGCGACGGGCCAGCTCGCTCCCAACTCCAGGGACAACGTGTAA TLG*ERWATGQLAPNSRDNV* -2.686 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22181 SHRVLAPTAQLKFTLCYPGA 20 SLAY-screened peptide P531 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCATCGCGTCTTGGCGCCGACCGCCCAGCTCAAGTTCACTCTGTGTTACCCTGGTGCCTAA SHRVLAPTAQLKFTLCYPGA* -2.684 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22182 NTPGRPKPTHYMCSLLPAIA 20 SLAY-screened peptide P532 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACTCCTGGCCGGCCGAAGCCTACCCATTATATGTGTAGTTTGCTTCCGGCTATCGCTTAA NTPGRPKPTHYMCSLLPAIA* -2.681 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22183 NRMVVTINKTTTHHV 15 SLAY-screened peptide P533 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCGTATGGTTGTGACGATCAACAAGACGACTACTCATCACGTCTAGGACGGTCTTTATTAA NRMVVTINKTTTHHV*DGLY* -2.68 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22184 LSAAPRVRVATDYNGSLPNP 20 SLAY-screened peptide P534 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCCGCTGCTCCGAGGGTCCGTGTGGCGACTGATTATAACGGTAGCCTTCCCAACCCCTAA LSAAPRVRVATDYNGSLPNP* -2.68 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22185 GRYSHQMRPTSYSANSLI 18 SLAY-screened peptide P535 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCGCTATTCCCACCAGATGCGGCCTACTTCTTATTCGGCTAATTCGCTCATCTAGGGCTAA GRYSHQMRPTSYSANSLI*G* -2.679 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22186 TVSKDDALSLDPSSILKEMP 20 SLAY-screened peptide P536 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGTGTCTAAGGACGATGCTCTTTCGCTGGATCCTAGTAGCATTCTTAAGGAGATGCCCTAA TVSKDDALSLDPSSILKEMP* -2.679 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22187 PIHDYVRLSFISSCCTCAFN 20 SLAY-screened peptide P537 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATCCACGACTATGTGCGTCTTAGTTTCATCAGTAGTTGTTGCACTTGTGCGTTTAATTAA PIHDYVRLSFISSCCTCAFN* -2.676 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22188 LRPTSYSG 8 SLAY-screened peptide P538 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAGGCCCACTAGCTACAGCGGCTAGTTTTACAATTATTATACGCTCTCGAAGTATCTGTAA LRPTSYSG*FYNYYTLSKYL* -2.676 0.000314 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22189 TRLNRPTYTHTSRDTDFDFL 20 SLAY-screened peptide P539 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCGGCTTAACCGTCCGACGTACACGCACACTTCGCGCGACACTGACTTTGATTTCCTTTAA TRLNRPTYTHTSRDTDFDFL* -2.674 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22190 QCHPLWLWHARDPPSPCRKQ 20 SLAY-screened peptide P540 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTGCCATCCTTTGTGGCTTTGGCACGCGCGGGACCCGCCGTCTCCGTGCAGGAAGCAGTAA QCHPLWLWHARDPPSPCRKQ* -2.666 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22191 TD 2 SLAY-screened peptide P541 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGATTAGAACTACGGTTCGGCGTATGGCTATTCTCCGAGTTTTATGAATTGTGAGTCGTAA TD*NYGSAYGYSPSFMNCES* -2.666 0.000104 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22192 ARSPVTKAIHSRANYNVFPN 20 SLAY-screened peptide P542 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCGTAGCCCTGTTACCAAGGCCATTCATTCTCGTGCTAATTATAATGTGTTCCCGAACTAA ARSPVTKAIHSRANYNVFPN* -2.659 0.000015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22193 APYTH 5 SLAY-screened peptide P543 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCTTATACTCATTAGAATACGGATAACGACTGGAATCCGAGTATCAAGCAGAGTCCGTAA APYTH*NTDNDWNPSIKQSP* -2.656 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22194 PTDSTVHVGDIGLFYENTSF 20 SLAY-screened peptide P544 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACTGACTCTACTGTCCACGTCGGTGACATTGGTTTGTTTTATGAGAATACTAGCTTCTAA PTDSTVHVGDIGLFYENTSF* -2.654 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22195 RTHFTSGFGRHCNIVCTFHF 20 SLAY-screened peptide P545 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGACGCATTTCACGTCGGGCTTTGGCAGGCACTGCAATATCGTCTGCACCTTCCACTTCTAA RTHFTSGFGRHCNIVCTFHF* -2.653 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22196 TTYCLRSPNAPSPNIH 16 SLAY-screened peptide P546 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACGTATTGCCTCCGGTCTCCGAATGCTCCTTCGCCGAATATTCATTAGCATCGCCTTTAA TTYCLRSPNAPSPNIH*HRL* -2.653 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22197 LSRNFIIRKGLNVRPQILLC 20 SLAY-screened peptide P547 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTCTCGCAATTTCATTATCCGCAAGGGCCTTAACGTGCGTCCTCAGATCCTTCTCTGCTAA LSRNFIIRKGLNVRPQILLC* -2.652 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22198 PPTEQPSIPTARASPTPQDS 20 SLAY-screened peptide P548 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCACTGAGCAGCCTTCTATCCCCACCGCCCGTGCTTCCCCGACGCCGCAGGATAGCTAA PPTEQPSIPTARASPTPQDS* -2.651 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22199 LHNADHRAADHRTISRHK 18 SLAY-screened peptide P549 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCACAACGCCGATCACCGCGCGGCTGATCATCGCACTATTAGTCGTCACAAGTAATGAGTA LHNADHRAADHRTISRHK**V -2.647 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22200 FKTCFYRDPTIACSHHCDTD 20 SLAY-screened peptide P550 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAAGACTTGTTTTTATCGTGACCCTACGATTGCGTGTTCTCACCATTGTGACACCGACTAA FKTCFYRDPTIACSHHCDTD* -2.646 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22201 VLLNRYFKEIGILSRFGTSL 20 SLAY-screened peptide P551 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCTCCTCAACCGCTATTTCAAGGAGATCGGTATCCTTAGTCGTTTCGGTACGAGTCTGTAA VLLNRYFKEIGILSRFGTSL* -2.642 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22202 ATLCSNTIGVHD 12 SLAY-screened peptide P552 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACTCTCTGCTCTAACACGATCGGGGTTCATGATTAGAATATGTACTAGCATATCTATTAA ATLCSNTIGVHD*NMY*HIY* -2.642 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22203 DTTLPSSNGVESPNRNIAIS 20 SLAY-screened peptide P553 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATACTACCCTCCCTTCGTCTAACGGGGTTGAGAGTCCTAATCGCAATATTGCTATTAGCTAA DTTLPSSNGVESPNRNIAIS* -2.641 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22204 ESDHSPSHLVLHSTHYLTHF 20 SLAY-screened peptide P554 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAGTGATCATTCGCCTTCTCATCTTGTTCTTCATTCTACGCACTACCTGACGCATTTCTAA ESDHSPSHLVLHSTHYLTHF* -2.64 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22205 RSCHAQHCYWYYTLLRASIP 20 SLAY-screened peptide P555 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTCCTGCCATGCTCAGCATTGTTATTGGTATTATACTTTGCTGCGTGCCTCCATTCCTTAA RSCHAQHCYWYYTLLRASIP* -2.638 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22206 WGGHSMLCLLLAPRGAFAAV 20 SLAY-screened peptide P556 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGGGTGGCCATAGTATGCTCTGTCTTCTTCTCGCCCCTCGCGGTGCGTTTGCTGCTGTCTAA WGGHSMLCLLLAPRGAFAAV* -2.635 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22207 LIHHSHVLTDSCFFHRNGIE 20 SLAY-screened peptide P557 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATCCATCACTCTCATGTCCTTACTGATAGCTGCTTTTTCCATCGCAATGGTATTGAGTAA LIHHSHVLTDSCFFHRNGIE* -2.635 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22208 CLHTPYPQNLCLNRVCNNLS 20 SLAY-screened peptide P558 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCTGCATACCCCTTATCCCCAGAATCTTTGCCTCAATCGTGTTTGTAATAATCTTAGCTAA CLHTPYPQNLCLNRVCNNLS* -2.632 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22209 VHIPLHSP 8 SLAY-screened peptide P559 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCACATTCCCCTCCACAGCCCCTAGAATTGCATTTACTACTACAGTGGAAGTTTTTTTAAC VHIPLHSP*NCIYYYSGSFFN -2.628 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22210 CEFLDALGHCHSLSGFPGNV 20 SLAY-screened peptide P560 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGAGTTCCTGGACGCTCTGGGCCATTGTCACTCGCTCTCGGGCTTTCCCGGTAATGTGTAA CEFLDALGHCHSLSGFPGNV* -2.628 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22211 YDHFPNFNDNYCWPPITCYL 20 SLAY-screened peptide P561 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGATCATTTTCCCAATTTCAATGACAACTATTGCTGGCCTCCTATTACTTGCTATCTGTAA YDHFPNFNDNYCWPPITCYL* -2.627 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22212 SASFT 5 SLAY-screened peptide P562 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGCTAGTTTTACGTAGATGCTGTCGGTTTGTGTTGAGGCGCGTACGCCCGCTATTAGGTAA SASFT*MLSVCVEARTPAIR* -2.627 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22213 LPSSMPHILFHCWVGLNRSN 20 SLAY-screened peptide P563 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCCTCGAGCATGCCTCACATCCTTTTTCATTGTTGGGTTGGCCTTAATAGGAGTAACTAA LPSSMPHILFHCWVGLNRSN* -2.625 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22214 ARWSFLFLLSTAHCPLPNRN 20 SLAY-screened peptide P564 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGGTGGTCGTTCTTGTTTCTGTTGTCCACTGCGCACTGTCCCTTGCCGAATCGGAATTAA ARWSFLFLLSTAHCPLPNRN* -2.624 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22215 LPPY 4 SLAY-screened peptide P565 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCCCCTTATTAGGTTCTTTACCATTTCCATGCTCCTCGGGAGATTGAGAAGATGATCTAA LPPY*VLYHFHAPREIEKMI* -2.623 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22216 LYVRAAYPNLSWSVPVLRVP 20 SLAY-screened peptide P566 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTACGTCCGCGCTGCCTATCCGAATTTGTCCTGGTCTGTGCCTGTTCTTCGCGTTCCGTAA LYVRAAYPNLSWSVPVLRVP* -2.617 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22217 PCTRSTLSPPNFVVELVSNW 20 SLAY-screened peptide P567 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTACTCGCTCGACCCTTAGTCCGCCCAATTTTGTGGTTGAGCTTGTTAGTAATTGGTAA PCTRSTLSPPNFVVELVSNW* -2.617 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22218 PDGFLRRSIPVNPSQTHFAH 20 SLAY-screened peptide P568 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGACGGTTTTCTTAGGCGTAGTATCCCTGTGAACCCGTCCCAGACGCATTTCGCTCATTAA PDGFLRRSIPVNPSQTHFAH* -2.617 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22219 PKRRRHFSNQLLRAVGKFDD 20 SLAY-screened peptide P569 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAAGCGCCGTCGTCATTTTAGCAATCAGCTTCTTCGCGCGGTGGGCAAGTTCGATGACTAA PKRRRHFSNQLLRAVGKFDD* -2.616 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22220 DNNNHLK 7 SLAY-screened peptide P570 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACAATAACAATCATCTTAAGTAGCTGTACTTGAACAAGGGTACGTTCTCCGCCGGCATCTAC DNNNHLK*LYLNKGTFSAGIY -2.616 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22221 LAVVASSCYTIHSHTNPPVT 20 SLAY-screened peptide P571 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGGCCGTTGTGGCTAGCAGCTGCTATACGATCCATTCCCATACTAATCCCCCTGTTACTTAA LAVVASSCYTIHSHTNPPVT* -2.612 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22222 LHFSRLRRL 9 SLAY-screened peptide P572 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCACTTCTCTAGATTAAGGCGCTTATGACCATGTCCAATACCTACTGCGGGTTGTCCTAAC LHFSRLRRL*PCPIPTAGCPN -2.605 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22223 VTSEPCASAPRGPHPLADSS 20 SLAY-screened peptide P573 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGACCAGCGAGCCGTGCGCCTCTGCGCCGCGGGGCCCGCACCCTCTCGCGGACTCCAGCTAA VTSEPCASAPRGPHPLADSS* -2.603 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22224 TARNPGPLLSHALCFLANTV 20 SLAY-screened peptide P574 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCGCGGAACCCCGGTCCGCTGCTTTCTCACGCTTTGTGCTTTCTGGCCAATACCGTCTAA TARNPGPLLSHALCFLANTV* -2.603 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22225 QLRRENTETILSSIRILPLAN 21 SLAY-screened peptide P575 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCTCCGGCGTGAGAATACTGAGACCATCTTGTCCTCTATACGAATATTGCCCCTTGCTAAC QLRRENTETILSSIRILPLAN -2.602 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22226 VNFNPCPHSNISRPT 15 SLAY-screened peptide P576 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTAATTTTAATCCCTGTCCTCATTCGAATATTTCGCGCCCTACTTAGTGCTGCATTCCCTAA VNFNPCPHSNISRPT*CCIP* -2.602 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22227 SLSVPHLRHMLLATTTLALR 20 SLAY-screened peptide P577 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTTGTCTGTGCCTCACCTCCGGCATATGCTGCTCGCTACCACCACCCTCGCTCTGCGCTAA SLSVPHLRHMLLATTTLALR* -2.601 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22228 FYGVLIYLRYLFFSFAIFVF 20 SLAY-screened peptide P578 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTATGGTGTGCTTATCTACCTGCGCTACCTCTTCTTTTCCTTCGCGATCTTCGTTTTTTAA FYGVLIYLRYLFFSFAIFVF* -2.598 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22229 TGPLRHFVNYYNIAHDQTTT 20 SLAY-screened peptide P579 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGCCCGCTCCGGCACTTCGTTAATTACTACAATATCGCTCATGATCAGACTACCACTTAA TGPLRHFVNYYNIAHDQTTT* -2.597 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22230 RRTRTPRGDAKNSAYSLGAP 20 SLAY-screened peptide P580 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAGGACTCGGACCCCGCGGGGTGATGCCAAGAATTCTGCTTATTCTCTGGGTGCTCCCTAA RRTRTPRGDAKNSAYSLGAP* -2.595 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22231 DLRQDLSGLRIFTISTADLCN 21 SLAY-screened peptide P581 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCTTCGGCAGGACCTCTCCGGTCTTCGCATTTTTACTATTAGCACTGCGGACTTATGTAAC DLRQDLSGLRIFTISTADLCN -2.594 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22232 LHHMADNNQVGDTLAEMLVS 20 SLAY-screened peptide P582 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCATCACATGGCCGACAACAATCAGGTGGGCGACACTCTTGCTGAGATGCTCGTGAGTTAA LHHMADNNQVGDTLAEMLVS* -2.594 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22233 HNHCHTLYNTPTILRPCACT 20 SLAY-screened peptide P583 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAATCACTGTCACACTCTGTATAATACTCCCACCATCTTGAGGCCGTGTGCCTGTACTTAA HNHCHTLYNTPTILRPCACT* -2.593 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22234 TFLSPLAGPLCNSSYFLASV 20 SLAY-screened peptide P584 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTTTCTGTCCCCTCTCGCCGGGCCCCTCTGCAACTCGTCCTATTTCCTGGCTTCTGTCTAA TFLSPLAGPLCNSSYFLASV* -2.593 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22235 SSIRTSVMDLVNYSTNFRNA 20 SLAY-screened peptide P585 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAGTATCCGGACCAGTGTTATGGACCTTGTTAATTACTCGACTAACTTTCGTAATGCTTAA SSIRTSVMDLVNYSTNFRNA* -2.592 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22236 LFPAQPAGCHFISPLLPVPAN 21 SLAY-screened peptide P586 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTTCCTGCTCAGCCTGCTGGCTGCCATTTCATCAGTCCATTATTACCAGTCCCCGCTAAC LFPAQPAGCHFISPLLPVPAN -2.592 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22237 AVARWLRDLNAVDIADFSRS 20 SLAY-screened peptide P587 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGTGGCTCGTTGGCTTCGTGACCTCAACGCTGTTGATATTGCTGACTTCTCTAGGAGCTAA AVARWLRDLNAVDIADFSRS* -2.591 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22238 CLHTTLYTWILGSTFCGFLC 20 SLAY-screened peptide P588 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTGCACACTACCCTCTATACTTGGATTCTGGGTTCGACTTTCTGCGGTTTCCTTTGCTAA CLHTTLYTWILGSTFCGFLC* -2.591 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22239 HLHRRCRQSFFYPRLAPNRM 20 SLAY-screened peptide P589 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTTGCATCGGAGGTGCCGGCAGTCTTTTTTTTATCCTCGTTTGGCTCCCAATCGGATGTAA HLHRRCRQSFFYPRLAPNRM* -2.588 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22240 PTYLALATQHPNDNLGHDRR 20 SLAY-screened peptide P590 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCTATTTGGCGTTGGCCACTCAGCACCCTAACGACAACCTGGGTCACGATCGTAGGTAA PTYLALATQHPNDNLGHDRR* -2.588 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22241 SVLFRVTTHTHHNKT 15 SLAY-screened peptide P591 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGTCCTTTTTCGTGTCACTACGCATACGCACCATAACAAGACCTAGGGGTAGCCGACCTAA SVLFRVTTHTHHNKT*G*PT* -2.587 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22242 LDSTHHYNKYMYASPL 16 SLAY-screened peptide P592 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGATAGTACGCACCATTATAATAAGTATATGTATGCTTCTCCCTTGTAGTCTAACAATTAA LDSTHHYNKYMYASPL*SNN* -2.586 0.000076 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22243 TPLNYSVRNPHFTIDVPYTS 20 SLAY-screened peptide P593 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCGCTTAACTACTCGGTCCGCAATCCTCATTTTACTATTGACGTTCCCTATACTTCTTAA TPLNYSVRNPHFTIDVPYTS* -2.585 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22244 IIFCAMRPTSHIEPVTTSGN 20 SLAY-screened peptide P594 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTATTTTTTGCGCTATGCGGCCTACTTCTCATATCGAGCCCGTGACTACCTCGGGCAACTAA IIFCAMRPTSHIEPVTTSGN* -2.582 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22245 ASPPVMSSKTPSCVSNITNY 20 SLAY-screened peptide P595 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTCGCCCCCCGTGATGTCCAGCAAGACTCCTTCTTGTGTCTCTAACATCACTAACTATTAA ASPPVMSSKTPSCVSNITNY* -2.581 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22246 RIVNMSRPPYRIKFSVHSCD 20 SLAY-screened peptide P596 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTATCGTCAATATGTCCCGGCCTCCTTACCGTATTAAGTTTTCTGTGCACTCGTGTGATTAA RIVNMSRPPYRIKFSVHSCD* -2.581 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22247 INLVCI 6 SLAY-screened peptide P597 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAACCTTGTGTGCATTTAGCTTCTCACCGCTGCGCACATTTATTATGTTCGGACGTTTTAA INLVCI*LLTAAHIYYVRTF* -2.579 0.000087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22248 PSRSMHHYPSRAVLMPLLRVN 21 SLAY-screened peptide P598 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGTCGGTCTATGCATCACTATCCGTCTCGCGCCGTGTTGATGCCGCTGCTGCGAGTTAAC PSRSMHHYPSRAVLMPLLRVN -2.578 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22249 HRKFTSNHLNYCITNKARLLN 21 SLAY-screened peptide P599 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCGGAAGTTCACGTCTAATCATCTTAACTATTGCATTACGAATAAAGCTCGCTTGCTTAAC HRKFTSNHLNYCITNKARLLN -2.577 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22250 RTSIHLFT 8 SLAY-screened peptide P600 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTACTTCGATCCATCTGTTTACCTAGATGTTTAGCAGTGGTTTGGCTTCACTGTGTATTAAC RTSIHLFT*MFSSGLASLCIN -2.576 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22251 SAPYTLVPLSYLNCNLPTDL 20 SLAY-screened peptide P601 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCCCCTTACACCCTGGTCCCGCTTTCGTATCTTAATTGCAATCTGCCTACTGACTTGTAA SAPYTLVPLSYLNCNLPTDL* -2.575 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22252 TPVYPLSDL 9 SLAY-screened peptide P602 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCTGTTTACCCTTTGTCTGATCTTTAGCCCTTCATGCGCCCCTCGCGCATGAGGTGTTAA TPVYPLSDL*PFMRPSRMRC* -2.571 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22253 LILCVLGCPCFVL 13 SLAY-screened peptide P603 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGATCCTTTGTGTCCTGGGCTGTCCTTGTTTTGTCCTTTAGTCTACATTTTGAGGCCGTAAC LILCVLGCPCFVL*STF*GRN -2.57 0.000586 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22254 PNVCDALPPSRACTLSAPSR 20 SLAY-screened peptide P604 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATGTCTGTGATGCCCTTCCTCCTTCGCGCGCGTGTACCCTGAGCGCCCCCTCTCGGTAA PNVCDALPPSRACTLSAPSR* -2.57 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22255 PPSVLIDGYFRPSDCSSERTN 21 SLAY-screened peptide P605 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCTTCTGTCCTTATTGACGGCTACTTCAGGCCTTCTGACTGTAGTTCCGAGAGGACTAAC PPSVLIDGYFRPSDCSSERTN -2.57 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22256 PH 2 SLAY-screened peptide P606 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCACTAGCGTTGGCGGCTTCTCTTCCACTATTAGGCCCCCCTTTTGTGCATCCGTTGCTAA PH*RWRLLFHY*APLLCIRC* -2.569 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22257 LSYHLNYPVNCSDHLHGLPC 20 SLAY-screened peptide P607 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCCTATCATCTCAATTATCCCGTTAATTGTAGTGACCACCTGCACGGTTTGCCCTGTTAA LSYHLNYPVNCSDHLHGLPC* -2.567 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22258 PNGTLIFCPLHSPRFLA 17 SLAY-screened peptide P608 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATGGGACTCTTATCTTCTGTCCTCTGCATTCTCCTCGCTTTCTCGCTTAGGTGTGTTAA PNGTLIFCPLHSPRFLA*VC* -2.563 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22259 LAAP 4 SLAY-screened peptide P609 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCTGCCCCTTAGTTTTCTTCTCTTGGTTCCGTGCTTATCCCGACGATCAGCTACAGCTAA LAAP*FSSLGSVLIPTISYS* -2.563 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22260 NLSLNSQGMARHRTDRATLS 20 SLAY-screened peptide P610 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCTGTCGCTCAATTCGCAGGGCATGGCGAGGCACCGCACGGATCGTGCTACTCTGTCGTAA NLSLNSQGMARHRTDRATLS* -2.563 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22261 PRSYNLGTVPPRSDPYNILN 20 SLAY-screened peptide P611 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTTCCTACAATCTGGGTACGGTGCCTCCGCGTTCTGATCCCTACAATATTCTTAATTAA PRSYNLGTVPPRSDPYNILN* -2.56 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22262 LRLRSLCLFCTVFSNNDSHA 20 SLAY-screened peptide P612 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGCCTTCGTTCTCTTTGTTTGTTTTGCACGGTTTTCTCCAATAACGATTCCCACGCGTAA LRLRSLCLFCTVFSNNDSHA* -2.559 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22263 NFHSRSPTNLAKTNKNPVME 20 SLAY-screened peptide P613 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTTTCATAGTCGTTCGCCGACTAATCTTGCTAAGACTAATAAGAATCCTGTCATGGAGTAA NFHSRSPTNLAKTNKNPVME* -2.557 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22264 SATNIRSHYLNFMVSILCMT 20 SLAY-screened peptide P614 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGCGACGAATATTAGGAGTCACTATCTCAACTTTATGGTTAGTATTCTGTGCATGACTTAA SATNIRSHYLNFMVSILCMT* -2.556 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22265 PAQVASFILRVFRHIREHMH 20 SLAY-screened peptide P615 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCTCAGGTCGCCAGTTTCATCTTGCGCGTCTTTCGGCATATCCGGGAGCATATGCACTAA PAQVASFILRVFRHIREHMH* -2.553 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22266 SLTFKFNRLYFTLRAWGTFG 20 SLAY-screened peptide P616 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCTTACCTTCAAGTTCAATCGGCTGTATTTCACTCTGAGGGCCTGGGGCACCTTTGGCTAA SLTFKFNRLYFTLRAWGTFG* -2.553 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22267 PVQPNHCTRHASD 13 SLAY-screened peptide P617 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTTCAGCCTAATCATTGCACTCGTCACGCTTCGGATTAGGCCACCCTTACCTATTACTAA PVQPNHCTRHASD*ATLTYY* -2.548 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22268 TRVPSFLRLFILRFRSRRILN 21 SLAY-screened peptide P618 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCGTGTTCCAAGTTTCCTTCGCTTGTTTATTCTACGATTCAGATCACGACGGATACTTAAC TRVPSFLRLFILRFRSRRILN -2.548 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22269 IFHLSNYSSIVPRWTRCYCV 20 SLAY-screened peptide P619 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTTCCATCTTTCTAATTATAGTTCTATTGTCCCCCGGTGGACCCGCTGCTATTGTGTTTAA IFHLSNYSSIVPRWTRCYCV* -2.547 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22270 DSRPRTQVRTNARGPPRCCR 20 SLAY-screened peptide P620 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATAGTAGGCCGAGGACCCAGGTCCGTACGAATGCTCGCGGGCCGCCTCGGTGTTGTCGTTAA DSRPRTQVRTNARGPPRCCR* -2.547 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22271 VCDPINTYPMPLFDMYFFFL 20 SLAY-screened peptide P621 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTGTGACCCCATTAATACCTATCCTATGCCGTTGTTTGACATGTATTTTTTCTTTCTGTAA VCDPINTYPMPLFDMYFFFL* -2.545 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22272 LHQRTRHHSP 10 SLAY-screened peptide P622 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCATCAGCGTACCCGGCATCACTCTCCTTAGTGCTAGCCTTTCCCTGTCCTCCACGTCTAA LHQRTRHHSP*C*PFPVLHV* -2.545 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22273 LFYTNYRAHEDYHNYFNTQQ 20 SLAY-screened peptide P623 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTCTACACCAATTATCGCGCTCACGAGGACTATCACAATTATTTTAATACGCAGCAGTAA LFYTNYRAHEDYHNYFNTQQ* -2.542 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22274 NRRLALYPVCVCGVAS 16 SLAY-screened peptide P624 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCGTCGCCTGGCTTTGTATCCTGTTTGCGTGTGCGGTGTTGCCAGTTAGGTGAACCACTAA NRRLALYPVCVCGVAS*VNH* -2.541 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22275 RSFDDMLMPITLAFFSAVCP 20 SLAY-screened peptide P625 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAGCTTCGACGATATGCTCATGCCTATCACCCTGGCCTTTTTCTCCGCCGTGTGTCCGTAA RSFDDMLMPITLAFFSAVCP* -2.541 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22276 YKH 3 SLAY-screened peptide P626 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAAGCATTAGAGTAACTTTACTGACAACCCTCACCTTTCCAATTCTCAGCGCGGTCCCTAA YKH*SNFTDNPHLSNSQRGP* -2.537 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22277 LLRNNDLSRELINTNNQDLH 20 SLAY-screened peptide P627 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTTCGTAATAATGACCTGTCCCGGGAGCTTATTAATACCAACAATCAGGACCTGCATTAA LLRNNDLSRELINTNNQDLH* -2.537 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22278 PPTWFESALFFIFTILFRLVN 21 SLAY-screened peptide P628 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCACCTGGTTCGAAAGCGCCTTATTTTTCATATTTACTATACTGTTTAGATTAGTTAAC PPTWFESALFFIFTILFRLVN -2.535 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22279 EWVSNPTLRMLTSLDCPRTL 20 SLAY-screened peptide P629 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGTGGGTGTCTAACCCGACGCTGCGTATGCTCACTAGCTTGGATTGTCCTAGGACTCTTTAA EWVSNPTLRMLTSLDCPRTL* -2.534 0.000104 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22280 HNTSCRPPMDPITLDCRHKT 20 SLAY-screened peptide P630 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAACACTTCTTGTAGGCCTCCCATGGATCCCATCACGCTGGATTGCCGTCATAAGACGTAA HNTSCRPPMDPITLDCRHKT* -2.534 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22281 YLVHLRVAMYLKHHASHQVR 20 SLAY-screened peptide P631 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTTGGTCCATCTGCGCGTTGCGATGTATCTTAAGCACCACGCGTCTCACCAGGTGCGCTAA YLVHLRVAMYLKHHASHQVR* -2.531 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22282 PSRNTRSTMARTQTIRYTSR 20 SLAY-screened peptide P632 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCAGGAATACGCGTAGCACCATGGCTCGCACTCAGACTATCCGTTATACTTCTCGGTAA PSRNTRSTMARTQTIRYTSR* -2.531 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22283 HRTPCRFFGVYVGVYISVTC 20 SLAY-screened peptide P633 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGGACCCCCTGTCGCTTCTTTGGTGTCTATGTTGGTGTCTATATTTCTGTTACGTGCTAA HRTPCRFFGVYVGVYISVTC* -2.529 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22284 RVTCMVSTNIHSAYNPAFII 20 SLAY-screened peptide P634 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGTCACGTGCATGGTCTCTACGAACATTCACTCGGCTTACAATCCGGCTTTTATCATCTAA RVTCMVSTNIHSAYNPAFII* -2.528 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22285 IARTYLNHSRSPPPAVP 17 SLAY-screened peptide P635 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCTCGCACTTATCTCAATCATTCGCGGTCTCCGCCCCCGGCTGTGCCCTAACTGAGTAAG IARTYLNHSRSPPPAVP*LSK -2.527 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22286 WGAYRITSSRCIGKANMYID 20 SLAY-screened peptide P636 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGGGTGCTTATCGCATTACTAGCAGTCGGTGCATTGGTAAGGCGAATATGTACATTGATTAA WGAYRITSSRCIGKANMYID* -2.525 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22287 PNFRQSSIPENTLHCVVVLY 20 SLAY-screened peptide P637 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATTTTCGCCAGTCTTCCATCCCGGAGAATACGCTGCATTGCGTTGTTGTTCTGTACTAA PNFRQSSIPENTLHCVVVLY* -2.524 0.000032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22288 DHDNFLEQVYYPRNRYASNS 20 SLAY-screened peptide P638 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCATGACAATTTCCTCGAGCAGGTTTATTACCCGCGTAATCGGTATGCTAGTAATTCTTAA DHDNFLEQVYYPRNRYASNS* -2.524 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22289 LARDGNYFGVRNTNLFSAHT 20 SLAY-screened peptide P639 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGCCCGTGACGGGAACTACTTTGGCGTGCGCAATACTAATCTTTTCAGCGCGCATACGTAA LARDGNYFGVRNTNLFSAHT* -2.524 0.000237 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22290 FGTSWSISYKRNFNVYRYKS 20 SLAY-screened peptide P640 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGGCACCAGCTGGAGTATTAGTTATAAGCGCAACTTTAACGTTTACAGGTATAAGAGTTAA FGTSWSISYKRNFNVYRYKS* -2.52 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22291 LTYNTPIYYHVHIKSGRYDM 20 SLAY-screened peptide P641 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACCTATAATACGCCTATCTATTATCATGTGCACATTAAGTCTGGGCGGTACGATATGTAA LTYNTPIYYHVHIKSGRYDM* -2.519 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22292 EPCRSAAAWPNI 12 SLAY-screened peptide P642 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCCTTGTAGGTCTGCTGCTGCTTGGCCTAACATTTAGGATTGCTCGGGTCACACGACTTAA EPCRSAAAWPNI*DCSGHTT* -2.519 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22293 PRSAPTPAVYTSPALASAST 20 SLAY-screened peptide P643 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCTCCGCCCCCACGCCTGCCGTTTACACCTCGCCTGCGCTGGCGTCCGCTAGCACGTAA PRSAPTPAVYTSPALASAST* -2.519 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22294 NLCFSSLDSFITAAL 15 SLAY-screened peptide P644 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCTCTGCTTCTCTTCGCTTGACAGTTTCATTACGGCTGCGCTTTAGATCTATGATTACTAA NLCFSSLDSFITAAL*IYDY* -2.518 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22295 PNRVHDPCSMYTVYRKFHHS 20 SLAY-screened peptide P645 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAATCGTGTTCATGATCCGTGTAGCATGTACACGGTGTATCGCAAGTTCCATCACTCTTAA PNRVHDPCSMYTVYRKFHHS* -2.516 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22296 NIFSSCTILSRCGCNLIVEN 20 SLAY-screened peptide P646 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACATTTTCTCTTCTTGCACGATTCTTAGCCGTTGCGGTTGTAACCTCATTGTCGAGAATTAA NIFSSCTILSRCGCNLIVEN* -2.516 0.000344 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22297 CNFALPKLSTILHRLRSSLFN 21 SLAY-screened peptide P647 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAACTTCGCGCTCCCCAAGCTTTCCACTATCTTGCACCGATTGCGATCTTCACTCTTTAAC CNFALPKLSTILHRLRSSLFN -2.516 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22298 AHRAMGSLQGFFYTFYFLIP 20 SLAY-screened peptide P648 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCACCGTGCCATGGGTTCGCTCCAGGGTTTCTTTTACACTTTTTACTTTCTTATCCCCTAA AHRAMGSLQGFFYTFYFLIP* -2.515 0.000288 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22299 ISRRSTHNSDDYYRAPNISL 20 SLAY-screened peptide P649 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAGCCGTCGTAGCACTCATAATTCCGATGACTATTATAGGGCTCCTAACATCAGTCTGTAA ISRRSTHNSDDYYRAPNISL* -2.513 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22300 PLKVPNASNNLVRFTSPA 18 SLAY-screened peptide P650 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTAAGGTCCCTAATGCTTCGAATAACCTTGTTAGGTTTACTTCCCCGGCTTAGACGTAA PLKVPNASNNLVRFTSPA*T* -2.513 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22301 KPTGATHPLYSCRHTPHVNA 20 SLAY-screened peptide P651 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCCGACTGGTGCTACCCATCCTCTCTATTCTTGCAGGCATACTCCTCATGTGAATGCCTAA KPTGATHPLYSCRHTPHVNA* -2.513 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22302 YPSWQANAN 9 SLAY-screened peptide P652 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCTAGCTGGCAGGCCAACGCGAATTAGAGTGATATTATTCTTGATTAGAATCATGATTAA YPSWQANAN*SDIILD*NHD* -2.512 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22303 RDRSLDLFCLSVHPQWDGHT 20 SLAY-screened peptide P653 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGACCGCAGTCTGGATTTGTTTTGTCTTTCGGTGCACCCCCAGTGGGACGGGCATACCTAA RDRSLDLFCLSVHPQWDGHT* -2.512 0.000172 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22304 SKYRVTPLAFFALYHHVTFS 20 SLAY-screened peptide P654 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCAAGTACCGCGTTACGCCTCTGGCTTTTTTCGCCCTTTACCACCACGTCACCTTCTCCTAA SKYRVTPLAFFALYHHVTFS* -2.512 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22305 ASISNSVAINYPHAHFPLLAN 21 SLAY-screened peptide P655 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAGTATCAGTAACTCGGTGGCTATTAATTATCCTCATGCTCACTTTCCCTTGCTGGCTAAC ASISNSVAINYPHAHFPLLAN -2.51 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22306 RLSLGLYNANSYTIWDVKYM 20 SLAY-screened peptide P656 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTCTCCCTCGGTCTTTATAATGCTAATAGTTACACCATTTGGGATGTCAAGTATATGTAA RLSLGLYNANSYTIWDVKYM* -2.508 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22307 YKTARLTDATAFLSPCSYHT 20 SLAY-screened peptide P657 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAAGACGGCCCGTCTCACTGATGCTACTGCGTTTTTGTCTCCTTGTTCTTATCATACCTAA YKTARLTDATAFLSPCSYHT* -2.506 0.000048 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22308 RQHPQHACDPD 11 SLAY-screened peptide P658 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCAGCATCCCCAGCATGCCTGTGACCCCGATTAGAATCCTAGTCTGTATTGTAACGTTTAA RQHPQHACDPD*NPSLYCNV* -2.505 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22309 TLIFFACQIFVLPGSAHFRVS 21 SLAY-screened peptide P659 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTGATTTTTTTTGCTTGTCAGATTTTTGTCTTGCCCGGTAGTGCTCACTTTAGAGTAAGT TLIFFACQIFVLPGSAHFRVS -2.504 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22310 YSPNSQEGTCATNTHHILIL 20 SLAY-screened peptide P660 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTCCCCTAACTCTCAGGAGGGTACGTGTGCTACTAACACGCATCATATCCTGATCCTTTAA YSPNSQEGTCATNTHHILIL* -2.502 0.000177 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22311 LLHTLSEHPFFDINVCDSAS 20 SLAY-screened peptide P661 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTCCATACCCTCTCGGAGCATCCCTTCTTTGACATTAACGTTTGTGATAGTGCTTCTTAA LLHTLSEHPFFDINVCDSAS* -2.501 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22312 LPTTVYLSVCPSTGGILVPH 20 SLAY-screened peptide P662 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCTACGACTGTGTACTTGTCTGTTTGCCCTTCTACTGGCGGCATTCTTGTCCCTCACTAA LPTTVYLSVCPSTGGILVPH* -2.501 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22313 MIHFWVLPGRLLFIG 15 SLAY-screened peptide P663 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGATTCACTTTTGGGTCCTACCGGGCCGTTTGCTCTTCATAGGTTGAATAAGCACCTGTAAC MIHFWVLPGRLLFIG*ISTCN -2.5 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22314 HLTSYDR 7 SLAY-screened peptide P664 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTCACGTCGTACGATCGCTAGACTGATTGTGACAGCTTTAACGACAATTTTGACTCCTAA HLTSYDR*TDCDSFNDNFDS* -2.5 0.001751 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22315 SDRRVMLSFSFSDRPGVDLQA 21 SLAY-screened peptide P665 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGACCGCCGCGTTATGCTCTCTTTCTCGTTTTCTGACCGCCCTGGTGTCGACCTGCAGGCA SDRRVMLSFSFSDRPGVDLQA -2.499 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22316 PCHHKIRRKCTLVHRPPNAL 20 SLAY-screened peptide P666 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCCATCACAAGATTCGCCGCAAGTGTACGCTTGTCCATAGGCCGCCCAACGCTCTCTAA PCHHKIRRKCTLVHRPPNAL* -2.498 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22317 HRSLHMYRNFCFNFDCE 17 SLAY-screened peptide P667 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGTAGCCTGCACATGTATCGTAATTTTTGCTTTAATTTTGACTGTGAGTAGTACCAGTAA HRSLHMYRNFCFNFDCE*YQ* -2.497 0.000281 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22318 ILFPARILRLLKNFYYLKHN 20 SLAY-screened peptide P668 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTTTTTCCGGCGCGCATCTTGCGCTTGCTTAAGAATTTTTATTACCTCAAGCATAACTAA ILFPARILRLLKNFYYLKHN* -2.497 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22319 TATAHKKRNNPLLTVAMGVV 20 SLAY-screened peptide P669 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCTACGGCTCATAAGAAGCGGAACAATCCCCTTTTGACGGTGGCTATGGGCGTGGTCTAA TATAHKKRNNPLLTVAMGVV* -2.495 0.000297 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22320 LLLHRLLYGNHCMLTHDTSC 20 SLAY-screened peptide P670 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTTGCTGCATCGCCTCTTGTATGGGAATCATTGCATGCTTACGCACGACACTAGTTGCTAA LLLHRLLYGNHCMLTHDTSC* -2.495 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22321 AVPACPCLTVPDRDVPSNTV 20 SLAY-screened peptide P671 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGTGCCGGCTTGCCCTTGCCTTACTGTTCCGGACCGCGATGTTCCGAGTAATACTGTGTAA AVPACPCLTVPDRDVPSNTV* -2.494 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22322 PHASRLHGAYDQRFSCYNPSN 21 SLAY-screened peptide P672 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCACGCCTCGCGCCTGCATGGCGCTTATGATCAGCGCTTCTCTTGTTATAATCCTTCTAAC PHASRLHGAYDQRFSCYNPSN -2.493 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22323 PLAQNTDILCINYFVISTPM 20 SLAY-screened peptide P673 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTTGCCCAGAACACTGATATCCTTTGCATCAATTACTTCGTCATCAGTACGCCTATGTAA PLAQNTDILCINYFVISTPM* -2.489 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22324 IGERPAKTLTAGHDGGYTLAN 21 SLAY-screened peptide P674 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGGCGAGCGGCCGGCGAAGACGCTTACCGCGGGCCATGACGGGGGCTATACGCTTGCTAAC IGERPAKTLTAGHDGGYTLAN -2.489 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22325 SVVSAPRDRYRAPSNPRSYG 20 SLAY-screened peptide P675 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGTCGTCTCTGCGCCTCGCGATCGTTATCGGGCTCCGTCTAATCCCAGGTCCTACGGTTAA SVVSAPRDRYRAPSNPRSYG* -2.488 0.000102 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22326 ECSATYAVPGDQYPNYFILL 20 SLAY-screened peptide P676 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGTGCTCGGCTACTTATGCCGTCCCTGGTGACCAGTACCCTAACTACTTTATTCTCCTTTAA ECSATYAVPGDQYPNYFILL* -2.487 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22327 FPYRICYNRLSFNSHLHDAT 20 SLAY-screened peptide P677 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCTTATCGGATCTGCTACAATCGCCTTTCTTTTAACTCGCATCTTCACGATGCGACCTAA FPYRICYNRLSFNSHLHDAT* -2.487 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22328 PLNPDSNPEHASLCHSEVFY 20 SLAY-screened peptide P678 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCAACCCTGACTCTAACCCTGAGCATGCTTCGCTTTGCCACAGTGAGGTCTTCTACTAA PLNPDSNPEHASLCHSEVFY* -2.486 0.000025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22329 SRIECTPLSNVGLDPGCALN 20 SLAY-screened peptide P679 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGTATCGAGTGCACCCCTCTGTCTAATGTTGGGCTTGATCCTGGTTGCGCTTTGAATTAA SRIECTPLSNVGLDPGCALN* -2.486 0.001213 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22330 CVLEINVNHYWHHREALFNI 20 SLAY-screened peptide P680 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGTTCTCGAAATTAATGTCAATCACTACTGGCATCACCGTGAGGCGCTCTTCAATATTTAA CVLEINVNHYWHHREALFNI* -2.485 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22331 IPRSMCPADSNVQDKGHSGP 20 SLAY-screened peptide P681 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCCGCGTAGCATGTGCCCTGCTGACTCCAATGTCCAGGACAAGGGTCACAGCGGCCCCTAA IPRSMCPADSNVQDKGHSGP* -2.485 0.000198 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22332 ANTMAKIHCNKVLGAIPHVL 20 SLAY-screened peptide P682 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAATACCATGGCCAAGATTCATTGTAATAAGGTGCTTGGGGCTATTCCGCATGTTCTGTAA ANTMAKIHCNKVLGAIPHVL* -2.483 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22333 HPFHIYCRSDSSNRRLACGN 20 SLAY-screened peptide P683 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGTTTCACATTTATTGTCGCAGTGACAGCAGCAATCGCCGACTCGCTTGTGGTAACTGA HPFHIYCRSDSSNRRLACGN* -2.479 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22334 PYQSKLYHNLHRSNLCVHGD 20 SLAY-screened peptide P684 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATCAGTCCAAGCTGTACCATAACCTTCATCGTTCGAATCTGTGTGTGCATGGGGACTAA PYQSKLYHNLHRSNLCVHGD* -2.479 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22335 SSPARGDLDFCRTFNNIQIT 20 SLAY-screened peptide P685 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTCCCCCGCCCGTGGCGATCTGGACTTTTGCCGTACGTTTAATAATATCCAGATCACCTAA SSPARGDLDFCRTFNNIQIT* -2.478 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22336 GSACTSQFPHFTLINGHGTN 20 SLAY-screened peptide P686 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTCTGCTTGCACGAGCCAGTTCCCGCACTTTACTCTCATCAACGGCCATGGTACTAATTAA GSACTSQFPHFTLINGHGTN* -2.478 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22337 TMHYYKSHTLYHSNTGPTHY 20 SLAY-screened peptide P687 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCATGCATTATTATAAGAGCCACACTTTGTACCACAGCAATACCGGCCCCACTCACTACTAA TMHYYKSHTLYHSNTGPTHY* -2.477 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22338 DRNIPIRFVCGHNHGPLIFN 20 SLAY-screened peptide P688 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCGTAATATCCCCATCCGGTTCGTTTGTGGTCACAACCACGGGCCTCTTATTTTTAATTAA DRNIPIRFVCGHNHGPLIFN* -2.477 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22339 LRWAPSYSRRDFRLKFGDIR 20 SLAY-screened peptide P689 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGGTGGGCCCCTAGTTATTCTCGTAGGGATTTCCGCCTGAAGTTCGGGGACATTCGTTAA LRWAPSYSRRDFRLKFGDIR* -2.476 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22340 LPRYVNTIPDISCTIPRRSVN 21 SLAY-screened peptide P690 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCGCGTTACGTTAACACTATCCCTGACATATCCTGTACCATTCCACGACGGTCAGTTAAC LPRYVNTIPDISCTIPRRSVN -2.476 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22341 HETPYHHRALAPVPASLLFPE 21 SLAY-screened peptide P691 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGAGACGCCTTATCACCACAGGGCCCTAGCACCAGTGCCTGCGTCACTACTTTTCCCCGAG HETPYHHRALAPVPASLLFPE -2.472 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22342 HRNTLRLHVGLKACVTLFNN 20 SLAY-screened peptide P692 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAGGAACACGCTCCGTCTGCACGTGGGGCTTAAGGCGTGTGTTACGCTTTTTAATAATTAA HRNTLRLHVGLKACVTLFNN* -2.472 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22343 TRSYKSRHMGGYISISIITFN 21 SLAY-screened peptide P693 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCGCAGTTATAAGTCTCGGCACATGGGCGGTTATATTTCTATTTCGATCATAACATTTAAC TRSYKSRHMGGYISISIITFN -2.469 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22344 FTHPSYRRSHCVRLASLGMN 20 SLAY-screened peptide P694 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACTCACCCGTCTTATCGCCGCAGTCATTGTGTTCGGTTGGCTAGTTTGGGTATGAACTAA FTHPSYRRSHCVRLASLGMN* -2.469 0.000144 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22345 TLHGIFTFFVAGSLGVLS 18 SLAY-screened peptide P695 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTTGCACGGTATTTTTACGTTCTTTGTGGCCGGCTCTCTGGGAGTTTTGAGTTGAACTAAC TLHGIFTFFVAGSLGVLS*TN -2.469 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22346 LRLTAHIHLGTYPIVDVTSY 20 SLAY-screened peptide P696 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGGCTCACCGCCCACATTCATCTTGGTACCTACCCCATTGTTGACGTTACCAGCTACTAA LRLTAHIHLGTYPIVDVTSY* -2.467 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22347 PVFALRSAVKSAAST 15 SLAY-screened peptide P697 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTGTTTGCCCTGCGTAGCGCTGTTAAAAGCGCTGCGAGCACTTGAACTTTAGGACGTAAC PVFALRSAVKSAAST*TLGRN -2.466 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22348 HRIEFFGHSCTNLCDYYHGS 20 SLAY-screened peptide P698 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCGCATCGAGTTTTTCGGTCATTCTTGTACTAACCTGTGCGACTATTATCACGGGAGCTAA HRIEFFGHSCTNLCDYYHGS* -2.466 0.000107 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22349 FVDHIACPHSSPFYSIIFRI 20 SLAY-screened peptide P699 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGTTGACCATATTGCTTGCCCCCACTCGTCCCCTTTTTATAGTATTATTTTTAGGATCTAA FVDHIACPHSSPFYSIIFRI* -2.465 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22350 PGVSTVFCVNAHSSYFRFCR 20 SLAY-screened peptide P700 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGTGTCTCGACTGTCTTCTGTGTGAACGCTCATAGTTCCTATTTTCGTTTTTGTCGGTAA PGVSTVFCVNAHSSYFRFCR* -2.464 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22351 PWSVGALRAYWGHGGPRPDE 20 SLAY-screened peptide P701 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGGTCTGTCGGCGCTTTGCGTGCTTATTGGGGCCATGGTGGGCCGCGTCCTGACGAGTAA PWSVGALRAYWGHGGPRPDE* -2.463 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22352 LHFILDASRVCHHRKGN 17 SLAY-screened peptide P702 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCATTTCATTCTTGACGCTTCTCGGGTCTGTCACCATAGGAAGGGCAATTAGCAGACTTAA LHFILDASRVCHHRKGN*QT* -2.462 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22353 SSTNHHKCTRLKSNNVIMAG 20 SLAY-screened peptide P703 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCAGTACTAATCACCATAAGTGTACTCGCCTTAAGAGCAATAATGTTATCATGGCGGGTTAA SSTNHHKCTRLKSNNVIMAG* -2.46 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22354 RYLGQSNNSCCAASGLPINT 20 SLAY-screened peptide P704 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTATTTGGGTCAGTCCAATAATTCGTGCTGTGCTGCGTCGGGTCTCCCTATCAACACTTAA RYLGQSNNSCCAASGLPINT* -2.459 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22355 WRIVLCPKLHDLLYNNMHCN 20 SLAY-screened peptide P705 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCGTATTGTCCTGTGTCCCAAGCTGCACGACCTCCTTTACAATAATATGCATTGCAATTAA WRIVLCPKLHDLLYNNMHCN* -2.458 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22356 SCAAPSCTSYPRDKITPYSW 20 SLAY-screened peptide P706 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTGTGCCGCTCCGTCTTGTACCTCTTATCCGAGGGACAAGATCACTCCTTATTCGTGGTAA SCAAPSCTSYPRDKITPYSW* -2.456 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22357 VYSLGSNPDNYN 12 SLAY-screened peptide P707 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTACTCCTTGGGGTCGAACCCTGACAATTATAATTAGACTTGTATCCGCATTCTTACTTAA VYSLGSNPDNYN*TCIRILT* -2.456 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22358 YTPALCPGLSSNRVNRSSAQ 20 SLAY-screened peptide P708 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACTCCTGCGCTGTGTCCTGGGCTCTCTAGTAATAGGGTTAATCGCTCTTCTGCCCAGTAA YTPALCPGLSSNRVNRSSAQ* -2.456 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22359 GAEGLSVLTVNIFTKYCRHG 20 SLAY-screened peptide P709 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGCCGAGGGTTTGTCCGTTCTTACTGTTAATATCTTTACCAAGTATTGTAGGCATGGGTAA GAEGLSVLTVNIFTKYCRHG* -2.455 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22360 PSNPNHLVNSSDVVHCYYPR 20 SLAY-screened peptide P710 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCCAACCCCAACCATCTTGTCAATTCGTCGGATGTTGTGCACTGCTACTATCCGCGCTAA PSNPNHLVNSSDVVHCYYPR* -2.455 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22361 AGWTLHTVMRAHTPTDCAYN 20 SLAY-screened peptide P711 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGGTTGGACTCTTCATACTGTTATGCGTGCCCATACCCCGACTGATTGCGCTTATAACTAA AGWTLHTVMRAHTPTDCAYN* -2.451 0.000033 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22362 AACCRSQNVSLNLLFTFNRY 20 SLAY-screened peptide P712 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGCGTGTTGTAGGTCTCAGAATGTCTCTCTTAATCTTCTCTTTACGTTTAACCGGTACTAA AACCRSQNVSLNLLFTFNRY* -2.45 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22363 PLTDWWTSL 9 SLAY-screened peptide P713 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTGACTGATTGGTGGACTTCTCTCTAGTCGGCTACGGGCAATTATGTGCACGCGCTTTAA PLTDWWTSL*SATGNYVHAL* -2.45 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22364 GFGAAPWDPVSSY 13 SLAY-screened peptide P714 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTTCGGCGCTGCGCCGTGGGATCCCGTTAGTTCGTATTAGAACCATAATACTGCTGATTAA GFGAAPWDPVSSY*NHNTAD* -2.448 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22365 ILWLRFRGTIIIWKFRFRLVN 21 SLAY-screened peptide P715 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCTGTGGCTGCGTTTTCGGGGGACTATTATCATTTGGAAATTTAGGTTCCGTCTAGTTAAC ILWLRFRGTIIIWKFRFRLVN -2.442 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22366 SHAIHMAHSHFYCVSHENTS 20 SLAY-screened peptide P716 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCATGCCATCCATATGGCTCATTCGCATTTTTACTGTGTTAGCCATGAGAATACTAGTTAA SHAIHMAHSHFYCVSHENTS* -2.442 0.000064 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22367 GPWSRHIYYSLIFYSIIVAA 20 SLAY-screened peptide P717 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCCTTGGAGTAGGCACATCTATTATAGCCTCATTTTCTATAGCATTATTGTTGCCGCCTAA GPWSRHIYYSLIFYSIIVAA* -2.441 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22368 QNQAC 5 SLAY-screened peptide P718 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAACCAGGCTTGCTAGCATTTTGTCAACCCTATTGCTGTCCGTCTGATTCATAACTCCTAA QNQAC*HFVNPIAVRLIHNS* -2.44 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22369 MYLS 4 SLAY-screened peptide P719 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTACCTGTCCTAGTCTCTCCACAAGGTTGATATTAGTTCTCCTATTTCCCTGCTTTCGTAA MYLS*SLHKVDISSPISLLS* -2.439 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22370 VSMQRPNGKFNITV 14 SLAY-screened peptide P720 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTCTATGCAGAGGCCTAACGGTAAGTTCAACATCACTGTTTAGGATCCGGTTTAGTGTTAA VSMQRPNGKFNITV*DPV*C* -2.439 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22371 RAHCMPYYLFSTLTPEVILL 20 SLAY-screened peptide P721 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCTCATTGCATGCCTTATTATTTGTTTAGTACTCTCACCCCTGAGGTCATTCTGCTTTAA RAHCMPYYLFSTLTPEVILL* -2.439 0.000386 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22372 GYHTHSRAPHELDYRIISAI 20 SLAY-screened peptide P722 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTACCATACTCATTCGCGGGCGCCCCATGAGCTTGACTATCGGATTATCAGCGCGATTTAA GYHTHSRAPHELDYRIISAI* -2.438 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22373 LFFAPK 6 SLAY-screened peptide P723 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTTTTCGCGCCGAAGTAGAACCTGAACGCTTTGCACGGTAAGTATCCTCTCATGGATTAA LFFAPK*NLNALHGKYPLMD* -2.437 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22374 SF 2 SLAY-screened peptide P724 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTTCTAGGTGCGGCCCTTGGTTATCCCGCTTTTTGCTCCGTCGCCCATGGCGTACTCTTAA SF*VRPLVIPLFAPSPMAYS* -2.436 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22375 LSGLCFAIIGCWNTY 15 SLAY-screened peptide P725 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCTGGGCTTTGTTTTGCGATTATCGGTTGTTGGAATACTTACTAGCTTTCCTGTGTTTAA LSGLCFAIIGCWNTY*LSCV* -2.435 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22376 TVSSTSSGSYVDGSNFVYLF 20 SLAY-screened peptide P726 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGTTTCTTCTACCTCGAGTGGCTCGTATGTCGATGGCAGTAATTTTGTCTATCTGTTTTAA TVSSTSSGSYVDGSNFVYLF* -2.435 0.000669 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22377 TPYHCVHRPTRWQRCCRDPP 20 SLAY-screened peptide P727 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCGTATCACTGTGTTCACCGGCCCACGAGGTGGCAGCGTTGCTGTCGTGACCCTCCCTAA TPYHCVHRPTRWQRCCRDPP* -2.435 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22378 PQHPCPLPPIYYMPAMLTPL 20 SLAY-screened peptide P728 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCAGCACCCTTGTCCGTTGCCGCCCATTTATTACATGCCTGCGATGCTTACTCCGCTGTAA PQHPCPLPPIYYMPAMLTPL* -2.433 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22379 VAEHPHLRHDGHCGVFYLTA 20 SLAY-screened peptide P729 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGCCGAGCATCCCCACCTGCGCCACGATGGTCACTGCGGCGTCTTTTATCTCACCGCCTAA VAEHPHLRHDGHCGVFYLTA* -2.431 0.005318 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22380 IYPPIGYPVYL 11 SLAY-screened peptide P730 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTATCCTCCGATTGGTTATCCGGTGTATCTGTAGAATACTGAGTCCATCGATTATATGTAA IYPPIGYPVYL*NTESIDYM* -2.43 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22381 HATGTRIHAFSPIPVRTHIP 20 SLAY-screened peptide P731 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCGACTGGCACTAGGATTCACGCTTTCTCGCCTATTCCGGTCCGTACGCATATTCCCTAA HATGTRIHAFSPIPVRTHIP* -2.426 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22382 PSIQICYPLLCNTYLSNTRN 20 SLAY-screened peptide P732 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAGCATCCAGATTTGTTACCCCTTGCTTTGCAATACTTATCTGTCCAACACTAGGAATTAA PSIQICYPLLCNTYLSNTRN* -2.426 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22383 RTNFDLTHWSQGHWIAYPLA 20 SLAY-screened peptide P733 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGACGAACTTTGATCTTACGCACTGGTCCCAGGGTCACTGGATTGCTTATCCTCTTGCCTAA RTNFDLTHWSQGHWIAYPLA* -2.426 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22384 GRDHILDLDFNGGSSARNDI 20 SLAY-screened peptide P734 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCAGGGACCATATTTTGGACCTGGATTTTAACGGTGGTTCTTCTGCGCGTAATGATATTTAA GRDHILDLDFNGGSSARNDI* -2.425 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22385 SVRNGTIAPCVSRPSAWRPTN 21 SLAY-screened peptide P735 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGTTCGTAATGGTACGATAGCCCCGTGCGTATCAAGGCCGTCTGCTTGGCGGCCCACTAAC SVRNGTIAPCVSRPSAWRPTN -2.423 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22386 FPTGVYSPVYCPISNCTFDY 20 SLAY-screened peptide P736 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCCGACCGGCGTTTATTCCCCTGTTTACTGCCCCATTAGTAATTGTACTTTTGATTATTAA FPTGVYSPVYCPISNCTFDY* -2.419 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22387 LLLMFFSLLLLLVAVADVLTE 21 SLAY-screened peptide P737 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTGCTCATGTTCTTTTCTCTCTTGTTGTTATTGGTCGCCGTCGCAGACGTTCTAACTGAG LLLMFFSLLLLLVAVADVLTE -2.416 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22388 GSRRCLPCHDTLPNPTEPSS 20 SLAY-screened peptide P738 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGAGTAGGCGTTGTCTTCCCTGTCATGATACGTTGCCGAATCCCACTGAGCCGAGTTCTTAA GSRRCLPCHDTLPNPTEPSS* -2.415 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22389 LSCDPVYALAIKHPVILDYT 20 SLAY-screened peptide P739 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAGTTGTGACCCTGTGTATGCCCTCGCTATTAAGCATCCTGTTATTCTCGACTATACGTAA LSCDPVYALAIKHPVILDYT* -2.412 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22390 SYNMTSICIFVERCPSAIRVN 21 SLAY-screened peptide P740 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTACAATATGACTTCTATCTGCATCTTTGTGGAAAGATGCCCGAGTGCTATTCGCGTTAAC SYNMTSICIFVERCPSAIRVN -2.408 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22391 SSQYDSCRNLFNWLSMPVNI 20 SLAY-screened peptide P741 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCAGCCAGTATGATTCGTGCCGTAACTTGTTTAACTGGCTTTCTATGCCTGTGAATATTTAA SSQYDSCRNLFNWLSMPVNI* -2.408 0.000037 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22392 ASSHYNRGSYLAFPS 15 SLAY-screened peptide P742 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTAGTAGTCACTACAATCGCGGTAGTTATCTCGCTTTTCCTTCCTAGACGGTCAGGAATTAA ASSHYNRGSYLAFPS*TVRN* -2.408 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22393 PAEGHHLHGNTSVSKMPRTL 20 SLAY-screened peptide P743 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCCGAGGGCCACCACCTGCATGGGAACACCAGCGTTTCCAAGATGCCGCGCACTCTGTAA PAEGHHLHGNTSVSKMPRTL* -2.406 0.000527 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22394 GPLLAGYTFGNTSGSFRYGL 20 SLAY-screened peptide P744 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCCCTTGCTCGCGGGGTACACTTTCGGTAACACTTCTGGCTCGTTTCGTTACGGGTTGTAA GPLLAGYTFGNTSGSFRYGL* -2.405 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22395 KQGYCGWPAVTYFPLSFSFH 20 SLAY-screened peptide P745 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCAGGGTTATTGTGGTTGGCCTGCGGTCACTTACTTTCCTCTCAGCTTCTCTTTCCATTAA KQGYCGWPAVTYFPLSFSFH* -2.405 0.00035 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22396 SYRATAIQVAGINVNNA 17 SLAY-screened peptide P746 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTACCGGGCCACTGCTATCCAGGTTGCTGGCATTAATGTTAATAATGCTTAGTAGACCTAA SYRATAIQVAGINVNNA**T* -2.405 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22397 SCTGWSLPSYGHPAFISPNS 20 SLAY-screened peptide P747 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGTACTGGCTGGTCGCTCCCTTCTTACGGCCATCCTGCTTTTATTAGTCCTAATTCTTAA SCTGWSLPSYGHPAFISPNS* -2.405 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22398 IEHPFCLSMPAYNVNKVYEC 20 SLAY-screened peptide P748 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGAGCATCCCTTCTGTCTGTCGATGCCGGCTTACAATGTTAATAAGGTCTATGAGTGTTAA IEHPFCLSMPAYNVNKVYEC* -2.404 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22399 ADYCRPFT 8 SLAY-screened peptide P749 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGACTACTGTAGGCCCTTTACCTAGAAGATTAAGACTCATCATTTGTAGATTAGGGTTTAA ADYCRPFT*KIKTHHL*IRV* -2.403 0.000033 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22400 KLYHNTYIIHCRSTLVPCNL 20 SLAY-screened peptide P750 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCTTTATCATAATACCTACATTATCCATTGCCGCTCTACGCTTGTCCCTTGCAATCTGTAA KLYHNTYIIHCRSTLVPCNL* -2.402 0.00006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22401 PFLHFSFPRRFITVEHRSSC 20 SLAY-screened peptide P751 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTTCTCCATTTCTCTTTCCCTCGCCGTTTTATTACCGTGGAGCATAGGTCCAGCTGCTAA PFLHFSFPRRFITVEHRSSC* -2.402 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22402 HGILHPPLYSVNNSQVGWMCN 21 SLAY-screened peptide P752 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGGTATCTTGCACCCTCCCCTCTATTCTGTCAATAACAGTCAGGTTGGGTGGATGTGTAAC HGILHPPLYSVNNSQVGWMCN -2.4 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22403 HYHYRTAHDSKSNLLDLLTG 20 SLAY-screened peptide P753 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTACCACTACCGCACTGCTCATGATTCTAAGTCTAACTTGCTCGATTTGCTCACTGGTTAA HYHYRTAHDSKSNLLDLLTG* -2.4 0.000211 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22404 THPNLPLRAPLLPEAAQTNA 20 SLAY-screened peptide P754 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCATCCGAACCTCCCCTTGCGTGCCCCCCTTCTTCCGGAGGCGGCGCAGACTAATGCTTAA THPNLPLRAPLLPEAAQTNA* -2.399 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22405 LSLYLIVSPSETC 13 SLAY-screened peptide P755 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCGCTGTATCTTATCGTTTCCCCTTCGGAGACGTGCTAGAATGATCTTCGCAATCTGTAA LSLYLIVSPSETC*NDLRNL* -2.398 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22406 NRLDLRSIYKPHNFDIYFIY 20 SLAY-screened peptide P756 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCGCTTGGACCTCCGGTCTATCTATAAGCCCCATAACTTCGATATTTACTTTATTTATTAA NRLDLRSIYKPHNFDIYFIY* -2.398 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22407 TGTLPCNCQAIAGINLVVSI 20 SLAY-screened peptide P757 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGTACTCTCCCTTGCAATTGCCAGGCTATTGCTGGTATTAATCTCGTGGTTTCCATCTAA TGTLPCNCQAIAGINLVVSI* -2.397 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22408 RRHRLFSLYHTAPSLCSYDP 20 SLAY-screened peptide P758 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGTCACCGTCTCTTTAGCCTTTACCACACCGCTCCTTCGCTGTGCTCTTATGATCCGTAA RRHRLFSLYHTAPSLCSYDP* -2.396 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22409 SQGTTYNLLMLSHVNSHS 18 SLAY-screened peptide P759 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCAGGGGACCACCTATAACCTCTTGATGTTGTCGCATGTGAATTCTCACAGCTAGTGCTAA SQGTTYNLLMLSHVNSHS*C* -2.392 0.000019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22410 TCPIILVYNLSTCNMTGSHR 20 SLAY-screened peptide P760 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGTCCTATTATTCTCGTTTACAACTTGTCGACGTGCAACATGACTGGGTCTCATCGGTAA TCPIILVYNLSTCNMTGSHR* -2.389 0.000024 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22411 LEDSGAVFSGSCHIPPMSLV 20 SLAY-screened peptide P761 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGAGGATAGTGGGGCGGTGTTCAGTGGCTCCTGCCATATTCCTCCGATGTCTCTTGTGTAA LEDSGAVFSGSCHIPPMSLV* -2.388 0.001076 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22412 QFYT 4 SLAY-screened peptide P762 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTTTTATACCTAGCTTGCTAATGGGTAGCTTAAGGCTAACATTGAGACCATTCACGAGTAA QFYT*LANG*LKANIETIHE* -2.386 0.000078 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22413 GCTPVTFHNVPYLITNNGFH 20 SLAY-screened peptide P763 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTGCACTCCTGTCACGTTTCATAATGTTCCTTATCTCATCACCAATAATGGGTTTCATTAA GCTPVTFHNVPYLITNNGFH* -2.386 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22414 CLQPYDIS 8 SLAY-screened peptide P764 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCTGCAGCCTTACGACATTTCTTAGTATATTGCTGACGTGTCCATGAGGATGGTTGTTTAA CLQPYDIS*YIADVSMRMVV* -2.383 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22415 PHLHPRPPRRSVPHCLLMWF 20 SLAY-screened peptide P765 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCACCTGCATCCGCGGCCCCCCCGCCGGTCTGTGCCCCACTGTCTGCTGATGTGGTTCTAA PHLHPRPPRRSVPHCLLMWF* -2.382 0.000489 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22416 PCPALLIISPLSLQPSLLIF 20 SLAY-screened peptide P766 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGCCCCGCCCTGCTCATCATCAGTCCTTTGTCCCTGCAGCCTTCCCTTCTGATCTTTTAA PCPALLIISPLSLQPSLLIF* -2.382 0.000154 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22417 RMLSCTPRLPSRRPYPGPGPN 21 SLAY-screened peptide P767 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATGCTTTCGTGTACCCCCAGGCTGCCCTCTCGTCGCCCTTACCCTGGGCCCGGTCCTAAC RMLSCTPRLPSRRPYPGPGPN -2.381 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22418 GIDFYNHVYIFVEPSPSPLCN 21 SLAY-screened peptide P768 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCATCGACTTTTATAATCACGTGTACATTTTCGTGGAGCCTAGCCCTTCTCCGCTATGTAAC GIDFYNHVYIFVEPSPSPLCN -2.38 0.00002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22419 CYNSFLRKRRKFKVYLTCLS 20 SLAY-screened peptide P769 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTACAATTCCTTCCTTCGTAAGCGTCGCAAGTTTAAGGTTTACCTCACCTGTCTCTCCTAA CYNSFLRKRRKFKVYLTCLS* -2.38 0.000095 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22420 TSPHRHLNYPPLPVLNT 17 SLAY-screened peptide P770 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCTCCTCACAGGCACCTTAACTACCCTCCGTTGCCGGTGCTTAACACTTAGACTCGGTAA TSPHRHLNYPPLPVLNT*TR* -2.378 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22421 ASDNHRRLGVTITFSVYFNF 20 SLAY-screened peptide P771 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTCTGACAACCATCGCCGTCTGGGTGTTACGATCACGTTTTCTGTTTACTTTAACTTTTAA ASDNHRRLGVTITFSVYFNF* -2.378 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22422 TSYGSIPYVLALGSRNPNA 19 SLAY-screened peptide P772 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAGTTACGGTAGCATTCCCTACGTTCTGGCTCTTGGCTCTCGCAATCCCAACGCCTAACTG TSYGSIPYVLALGSRNPNA*L -2.378 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22423 AMAHCGKPIVPHHRLCY 17 SLAY-screened peptide P773 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCATGGCTCACTGCGGCAAGCCTATTGTTCCGCATCACCGTCTCTGTTACTAGGACACTTAA AMAHCGKPIVPHHRLCY*DT* -2.378 0.000287 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22424 SGCRRESFSRLRDRFYSNRV 20 SLAY-screened peptide P774 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGGGTGCCGCAGGGAGTCGTTCAGTAGGCTGCGTGATCGCTTTTACAGTAACCGTGTTTAA SGCRRESFSRLRDRFYSNRV* -2.378 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22425 GNDRRYTNVTTDIRSNFIML 20 SLAY-screened peptide P775 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTAATGACCGTCGCTACACCAACGTCACCACGGATATTAGGTCTAATTTTATTATGTTGTAA GNDRRYTNVTTDIRSNFIML* -2.378 0.00195 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22426 LAAPK 5 SLAY-screened peptide P776 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGGCTGCTCCGAAGTAGGCGCATGGGTACTCTGACTATTGCCCCACCCAGATCGTCTCGTAA LAAPK*AHGYSDYCPTQIVS* -2.377 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22427 APWRPRGRAWRSIFTYRRKA 20 SLAY-screened peptide P777 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCTTGGCGGCCCCGGGGCCGCGCGTGGCGGAGTATCTTTACGTATCGTCGCAAGGCCTAA APWRPRGRAWRSIFTYRRKA* -2.376 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22428 KSSFLDGRWYYSNLHNRGLA 20 SLAY-screened peptide P778 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGAGCTCCTTTCTCGACGGTCGGTGGTATTATAGCAACCTGCATAATCGTGGTCTTGCGTAA KSSFLDGRWYYSNLHNRGLA* -2.376 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22429 LSPMSLLHTGVMRCNVNADF 20 SLAY-screened peptide P779 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCCCCTATGTCCCTCCTGCACACTGGCGTTATGCGTTGTAACGTTAACGCTGACTTCTAA LSPMSLLHTGVMRCNVNADF* -2.375 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22430 AFTPSVKNPSPANGAPNDCI 20 SLAY-screened peptide P780 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTTTACCCCTTCCGTTAAGAACCCTTCTCCCGCCAATGGTGCCCCCAATGACTGCATTTAA AFTPSVKNPSPANGAPNDCI* -2.375 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22431 IPEILLSLYRRYLNVYKWVH 20 SLAY-screened peptide P781 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCGGAGATCCTCCTCTCTCTTTACCGCCGTTACTTGAACGTTTACAAGTGGGTCCATTAA IPEILLSLYRRYLNVYKWVH* -2.374 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22432 PVVHLNLLRYLWSIYSNAVL 20 SLAY-screened peptide P782 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTGGTGCACCTCAACTTGCTGAGGTATCTGTGGAGCATTTACAGTAATGCGGTTCTTTAA PVVHLNLLRYLWSIYSNAVL* -2.373 0.000335 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22433 SLGIYDGRIGGTNLNREKAY 20 SLAY-screened peptide P783 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTTGGGCATCTATGATGGTCGCATTGGCGGGACTAATCTTAATCGGGAGAAGGCTTACTAA SLGIYDGRIGGTNLNREKAY* -2.373 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22434 VTIVQPIPLSPPDSATCMHQ 20 SLAY-screened peptide P784 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTACTATTGTGCAGCCGATTCCCCTGTCCCCTCCTGACTCGGCCACTTGCATGCATCAGTAA VTIVQPIPLSPPDSATCMHQ* -2.372 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22435 GSTWYYNSTIRANYIIDNTR 20 SLAY-screened peptide P785 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGAGCACGTGGTATTATAATAGCACTATTAGGGCCAATTATATTATTGATAATACTAGGTAA GSTWYYNSTIRANYIIDNTR* -2.372 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22436 RDKFYLRGNPNGMNMTVTIC 20 SLAY-screened peptide P786 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGATAAGTTTTATCTGCGTGGTAATCCCAATGGGATGAACATGACGGTTACTATTTGTTAA RDKFYLRGNPNGMNMTVTIC* -2.371 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22437 TGDPYCHSLPITPTHNMCDL 20 SLAY-screened peptide P787 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGGTGATCCCTACTGTCATTCCCTGCCTATTACTCCGACCCATAATATGTGTGATCTTTAA TGDPYCHSLPITPTHNMCDL* -2.37 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22438 VCYCSNRSEWPSHIYVHETH 20 SLAY-screened peptide P788 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTGCTATTGTTCTAATCGCAGTGAGTGGCCTTCCCACATTTATGTTCACGAGACTCACTAA VCYCSNRSEWPSHIYVHETH* -2.37 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22439 CHRAPPISYIHYSFHLYS 18 SLAY-screened peptide P789 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCATCGTGCTCCCCCTATTTCCTATATTCACTATTCTTTTCACCTGTACTCCTAGAGTTAA CHRAPPISYIHYSFHLYS*S* -2.368 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22440 LNFSCARTNSLAPLILRT 18 SLAY-screened peptide P790 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAATTTTTCCTGTGCCCGTACCAACTCGCTTGCTCCTTTGATTCTGCGCACTTAGTTGTAA LNFSCARTNSLAPLILRT*L* -2.367 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22441 DYFHYLTFLFSLAIIFTTSLN 21 SLAY-screened peptide P791 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTACTTTCACTATCTGACGTTCTTGTTCTCATTGGCAATTATATTCACAACCTCACTTAAC DYFHYLTFLFSLAIIFTTSLN -2.367 0.000085 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22442 PPTLMCPSITLAFTRRRSC 19 SLAY-screened peptide P792 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCACTCTTATGTGTCCCTCGATTACTTTGGCGTTCACCCGGCGCCGGTCCTGTTAGTAA PPTLMCPSITLAFTRRRSC** -2.364 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22443 TLIHIVIYGPMVLLGLCTSKS 21 SLAY-screened peptide P793 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTTATCCACATTGTGATCTATGGCCCCATGGTCCTGTTGGGCCTTTGTACGAGTAAGTCG TLIHIVIYGPMVLLGLCTSKS -2.364 0.000356 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22444 TVVLPLSVAIVYSAYSAPHL 20 SLAY-screened peptide P794 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTCGTCCTGCCCCTGTCTGTTGCCATTGTTTATTCCGCTTACTCGGCCCCTCACCTCTAA TVVLPLSVAIVYSAYSAPHL* -2.363 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22445 QRRVLVAGNSSCAIQTLRCA 20 SLAY-screened peptide P795 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCGGCGTGTTCTGGTGGCCGGTAATTCCAGCTGCGCGATCCAGACGCTGCGTTGTGCGTAA QRRVLVAGNSSCAIQTLRCA* -2.363 0.000212 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22446 APVAHNPRSGRNPAKTPTNT 20 SLAY-screened peptide P796 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCGGTTGCGCACAATCCGCGTTCGGGTCGTAACCCGGCCAAGACGCCCACCAACACTTAA APVAHNPRSGRNPAKTPTNT* -2.362 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22447 HLGITVDNCTAYAIDVLPNT 20 SLAY-screened peptide P797 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTTGGGTATTACTGTTGACAATTGCACGGCGTACGCCATCGATGTGCTTCCTAACACCTAA HLGITVDNCTAYAIDVLPNT* -2.361 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22448 TLTA 4 SLAY-screened peptide P798 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTTACGGCTTAGGTGCTCACTTAGAGTCAGAACATTCTCCTCACTTATTAGGCGTGCTAA TLTA*VLT*SQNILLTY*AC* -2.361 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22449 DPNVSTFSHCRHRLAFFSDSH 21 SLAY-screened peptide P799 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCTAATGTTTCGACTTTCTCCCACTGCCGCCACCGACTGGCATTCTTCTCAGATTCACAT DPNVSTFSHCRHRLAFFSDSH -2.36 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22450 SSTKRPDSDDHDVSLQDNTH 20 SLAY-screened peptide P800 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAGTACTAAGCGCCCTGACTCTGATGATCATGACGTGTCTCTCCAGGATAACACTCACTAA SSTKRPDSDDHDVSLQDNTH* -2.36 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22451 AGVTIILLPGAATFVIRRRRN 21 SLAY-screened peptide P801 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGGAGTTACCATCATCTTACTGCCTGGCGCCGCGACGTTTGTTATAAGACGACGCCGTAAC AGVTIILLPGAATFVIRRRRN -2.36 0.000311 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22452 PRWGPAWNIFRLFYKSRHPS 20 SLAY-screened peptide P802 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCTGGGGCCCCGCGTGGAACATCTTCCGGCTCTTCTATAAGTCTCGTCACCCCTCGTAA PRWGPAWNIFRLFYKSRHPS* -2.359 0.000019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22453 HLHMATYINNHYSTYFFTFF 20 SLAY-screened peptide P803 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTTCATATGGCTACGTATATCAACAATCATTACAGTACCTATTTTTTTACCTTCTTCTAA HLHMATYINNHYSTYFFTFF* -2.358 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22454 NYSGR 5 SLAY-screened peptide P804 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTACAGCGGCCGCTAGGCTGCTGCTTTTCTTGACACCTGTGCCACTTATCCGATTGCGTAA NYSGR*AAAFLDTCATYPIA* -2.357 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22455 PPTHLSTRMCVSSATHADSR 20 SLAY-screened peptide P805 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCGACTCATCTTAGTACTCGTATGTGCGTGTCGAGCGCCACCCACGCTGATTCGAGGTAA PPTHLSTRMCVSSATHADSR* -2.355 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22456 NFYKPEFLQDYLTSYYYVLA 20 SLAY-screened peptide P806 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTTCTACAAGCCTGAGTTTCTCCAGGACTATCTTACGAGTTATTATTATGTCCTTGCCTAA NFYKPEFLQDYLTSYYYVLA* -2.355 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22457 YADTSGPALDHSNCSVCGCM 20 SLAY-screened peptide P807 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCCGACACCTCCGGCCCCGCCTTGGACCACAGCAACTGTAGTGTTTGCGGCTGCATGTAA YADTSGPALDHSNCSVCGCM* -2.354 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22458 VPPDTIVRDDSVALLTTLRH 20 SLAY-screened peptide P808 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCCGCCTGATACGATTGTCCGTGATGATTCGGTGGCCCTGCTTACTACCCTTAGGCACTAA VPPDTIVRDDSVALLTTLRH* -2.353 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22459 PRKLILILKSYRQKKTRKNS 20 SLAY-screened peptide P809 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGCAAGCTGATTCTCATCCTTAAGAGTTACCGCCAGAAGAAGACTAGGAAGAATAGCTAA PRKLILILKSYRQKKTRKNS* -2.353 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22460 PPDNRDTSWPAQERGPADHY 20 SLAY-screened peptide P810 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCGATAACCGGGATACCTCTTGGCCTGCTCAGGAGAGGGGTCCGGCGGACCATTATTAA PPDNRDTSWPAQERGPADHY* -2.351 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22461 FQSAESSPSVAIHIVDDLIH 20 SLAY-screened peptide P811 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCAGTCTGCGGAGTCGAGTCCTAGCGTGGCTATCCATATCGTCGATGATCTGATTCATTAA FQSAESSPSVAIHIVDDLIH* -2.35 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22462 YAHAPYEDDVPPQHGVVTE 19 SLAY-screened peptide P812 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCTCACGCCCCATATGAGGACGACGTGCCGCCACAACACGGAGTGGTAACTGAGTAAGTC YAHAPYEDDVPPQHGVVTE*V -2.349 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22463 VDREFLLDYKSYAKKYSLIV 20 SLAY-screened peptide P813 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGACCGTGAGTTTCTGCTTGACTACAAGTCCTACGCGAAGAAGTACTCGCTGATTGTTTAA VDREFLLDYKSYAKKYSLIV* -2.348 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22464 WKNQHGYPSHCSNMEFGNHDN 21 SLAY-screened peptide P814 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGAAGAATCAGCACGGCTACCCCTCCCATTGCAGTAATATGGAGTTTGGCAATCATGATAAC WKNQHGYPSHCSNMEFGNHDN -2.348 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22465 PICPHMHRDWIMFNNTSWIS 20 SLAY-screened peptide P815 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATTTGCCCCCACATGCATAGGGATTGGATCATGTTCAATAATACCTCTTGGATTAGCTAA PICPHMHRDWIMFNNTSWIS* -2.348 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22466 RGHHDSYSVRCYLSPDPDHP 20 SLAY-screened peptide P816 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGGTCACCACGATTCTTATTCCGTTCGTTGTTACCTCTCTCCCGATCCTGACCACCCGTAA RGHHDSYSVRCYLSPDPDHP* -2.347 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22467 FYQVPLQNHRLDMHRPHNNN 20 SLAY-screened peptide P817 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTACCAGGTTCCTCTGCAGAACCACCGTCTGGACATGCATCGTCCGCATAATAATAATTAA FYQVPLQNHRLDMHRPHNNN* -2.346 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22468 WHS 3 SLAY-screened peptide P818 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCACTCCTAGAAGACCTATCCCAGTTTGTCGATCCTTCTGCTCTAGACCGCGACGTTCTAA WHS*KTYPSLSILLL*TATF* -2.346 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22469 YRVQPDDNVLQVRVTVAIIFN 21 SLAY-screened peptide P819 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCGTGTGCAGCCCGATGACAACGTCCTGCAGGTTAGGGTTACAGTTGCGATTATATTTAAC YRVQPDDNVLQVRVTVAIIFN -2.345 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22470 RWFAAHDFGHDCNKPIPTDT 20 SLAY-screened peptide P820 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTGGTTCGCGGCGCACGACTTTGGTCATGATTGTAACAAGCCGATTCCTACTGATACTTAA RWFAAHDFGHDCNKPIPTDT* -2.344 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22471 RRSYPLLLYHFNFKCS 16 SLAY-screened peptide P821 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCGCAGTTACCCTCTTTTGCTTTATCACTTTAACTTTAAGTGCTCTTAGGGGACCGACTAA RRSYPLLLYHFNFKCS*GTD* -2.344 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22472 LRRQPAAYMLYRTHMFLI 18 SLAY-screened peptide P822 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAGGAGGCAGCCCGCTGCGTATATGCTCTACCGTACGCATATGTTTCTCATTTAGAACTAA LRRQPAAYMLYRTHMFLI*N* -2.344 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22473 DRGTRHTSPDSYAFTSAINT 20 SLAY-screened peptide P823 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCGTGGCACGCGCCATACGTCGCCCGACTCGTATGCCTTTACTTCTGCCATTAACACCTAA DRGTRHTSPDSYAFTSAINT* -2.343 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22474 LNPCTSAVIPFDYIYIQFYE 20 SLAY-screened peptide P824 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAACCCGTGTACGAGTGCTGTCATTCCTTTCGATTACATTTATATTCAGTTTTACGAGTAA LNPCTSAVIPFDYIYIQFYE* -2.342 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22475 CCMSLVLVSSKCLCFIV 17 SLAY-screened peptide P825 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTGCATGTCTCTGGTTTTGGTTTCTTCTAAGTGCCTCTGTTTCATCGTGTAGGCTTCCTAA CCMSLVLVSSKCLCFIV*AS* -2.341 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22476 SSYFLERPRD 10 SLAY-screened peptide P826 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCTTATTTTTTGGAGCGTCCTCGTGACTAGTCGGACTACGTGAATATTATGCACATGTAA SSYFLERPRD*SDYVNIMHM* -2.34 0.000343 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22477 YVSPQGIPLRSWRFFNIVPV 20 SLAY-screened peptide P827 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGTTAGCCCTCAGGGTATTCCCCTTAGGAGCTGGCGCTTTTTTAACATTGTTCCCGTGTAA YVSPQGIPLRSWRFFNIVPV* -2.339 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22478 RAANLPVGPHLIKRSAPYLH 20 SLAY-screened peptide P828 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCCGCCAACCTTCCCGTGGGCCCCCACCTCATTAAGCGTAGCGCGCCCTACTTGCATTAA RAANLPVGPHLIKRSAPYLH* -2.338 0.000955 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22479 FNSEHQVSRGSVVVIFVLDN 20 SLAY-screened peptide P829 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAATTCCGAGCATCAGGTGTCTCGGGGTAGCGTGGTGGTTATTTTCGTTCTGGACAACTAA FNSEHQVSRGSVVVIFVLDN* -2.336 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22480 PPCPVLLAFPLALARVSPIN 20 SLAY-screened peptide P830 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCGTGCCCTGTACTTCTGGCATTCCCTCTCGCACTAGCGCGGGTATCACCCATTAACTGA PPCPVLLAFPLALARVSPIN* -2.335 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22481 SSCRVLSSD 9 SLAY-screened peptide P831 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTCCTGCCGTGTCCTTTCCTCTGACTAGTTTCGCTCCTGCCCCGAGTGCCAGTCCTTCTAA SSCRVLSSD*FRSCPECQSF* -2.334 0.000119 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22482 ITWALFLWYGMPNFDIDRSE 20 SLAY-screened peptide P832 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCACCTGGGCCCTTTTCCTCTGGTACGGTATGCCCAATTTTGACATTGATAGGTCGGAGTAA ITWALFLWYGMPNFDIDRSE* -2.333 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22483 IDIPDYDYQSLC 12 SLAY-screened peptide P833 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGACATTCCCGATTATGATTATCAGAGCCTTTGTTAGCTTTACCCCACTATTTATTGGTAA IDIPDYDYQSLC*LYPTIYW* -2.332 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22484 YSHMRRSHHDHVRPSDFLSS 20 SLAY-screened peptide P834 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACAGCCACATGCGTCGTTCTCATCATGATCACGTGCGGCCCAGCGATTTCCTGTCTTCTTAA YSHMRRSHHDHVRPSDFLSS* -2.332 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22485 HYPAHSYSVQIMWRNIANLP 20 SLAY-screened peptide P835 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTACCCTGCCCATTCGTACAGTGTTCAGATTATGTGGCGCAATATTGCGAATCTTCCGTAA HYPAHSYSVQIMWRNIANLP* -2.332 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22486 VPNSTATLNAYW 12 SLAY-screened peptide P836 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCCCAATTCTACCGCTACGCTCAACGCTTATTGGTAGTGCAGGAATGGCCTTAACTCCTAA VPNSTATLNAYW*CRNGLNS* -2.331 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22487 EDYTFLLVFVHCFVRFKSKST 21 SLAY-screened peptide P837 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGACTATACTTTTCTCCTTGTTTTCGTCCATTGCTTCGTGCGCTTCAAGAGTAAGTCGACC EDYTFLLVFVHCFVRFKSKST -2.33 0.000361 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22488 RNGFNREYCSSHVCIFNSVNN 21 SLAY-screened peptide P838 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGAATGGCTTTAACCGTGAGTATTGCTCTTCGCACGTTTGTATCTTTAATAGTGTGAATAAC RNGFNREYCSSHVCIFNSVNN -2.328 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22489 YLDVSSNIYDREYLLLCTCS 20 SLAY-screened peptide P839 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCTTGACGTTTCCAGTAATATTTATGACCGGGAGTACCTCTTGCTTTGCACGTGTTCGTAA YLDVSSNIYDREYLLLCTCS* -2.327 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22490 SHV 3 SLAY-screened peptide P840 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCATGTCTAGAGCCATTGTCAGTATTATGTGGTCCTCACGCTTGATAGCCTTACTGTGTAA SHV*SHCQYYVVLTLDSLTV* -2.327 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22491 NLEMSALPLPLYLVRLLAVN 20 SLAY-screened peptide P841 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTTGGAGATGTCTGCGTTGCCTCTGCCTCTCTACTTGGTCCGTTTGTTGGCCGTGAATTAA NLEMSALPLPLYLVRLLAVN* -2.327 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22492 PPSRPSLHNSSWFPLMYECL 20 SLAY-screened peptide P842 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCGTCTCGCCCTTCTCTGCATAATTCTTCGTGGTTCCCGCTTATGTACGAGTGCCTTTAA PPSRPSLHNSSWFPLMYECL* -2.327 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22493 TTFNLYARHQARLNTHENAP 20 SLAY-screened peptide P843 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACTTTTAATCTGTATGCCCGTCATCAGGCTCGGCTTAACACTCATGAGAATGCTCCTTAA TTFNLYARHQARLNTHENAP* -2.326 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22494 IRRCAFAFNVLAQNQNKMTT 20 SLAY-screened peptide P844 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAGGCGTTGCGCGTTCGCTTTTAACGTGTTGGCGCAGAATCAGAACAAGATGACCACTTAA IRRCAFAFNVLAQNQNKMTT* -2.326 0.000079 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22495 HYPNSPLPRFLNIILHRCLIN 21 SLAY-screened peptide P845 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTATCCTAACTCGCCTCTCCCCCGTTTTCTCAACATTATTCTCCATAGGTGCTTGATTAAC HYPNSPLPRFLNIILHRCLIN -2.325 0.000984 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22496 HITRCAPDWAYVLLHPH 17 SLAY-screened peptide P846 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATCACCCGCTGCGCCCCGGACTGGGCTTACGTCCTGCTTCATCCTCATTAGGGGAGCTAA HITRCAPDWAYVLLHPH*GS* -2.325 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22497 ELTPALSRYVALIETYNSAP 20 SLAY-screened peptide P847 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCTCACCCCGGCGCTCTCGCGTTATGTCGCTCTCATCGAGACGTATAACTCGGCCCCGTAA ELTPALSRYVALIETYNSAP* -2.324 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22498 HAANSACRHPMQIPVPDIIY 20 SLAY-screened peptide P848 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCTGCTAACTCTGCTTGTCGCCACCCTATGCAGATTCCTGTCCCCGACATTATCTACTAA HAANSACRHPMQIPVPDIIY* -2.324 0.000669 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22499 RSGAHLLLTHRRGRACGLSV 20 SLAY-screened peptide P849 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCCGGCGCGCATCTTCTCCTCACTCACCGCCGTGGGCGCGCTTGTGGCCTGTCCGTGTAA RSGAHLLLTHRRGRACGLSV* -2.323 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22500 YQFINMCSVPFHPPC 15 SLAY-screened peptide P850 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCAGTTTATTAACATGTGCTCTGTGCCTTTTCATCCTCCTTGCTAGAGCACCAGCGGTTAA YQFINMCSVPFHPPC*STSG* -2.323 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22501 LHSPHSAPHFARPASRNIDT 20 SLAY-screened peptide P851 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCATAGTCCGCATTCCGCTCCCCATTTTGCTAGGCCTGCTAGCAGGAACATTGATACGTAA LHSPHSAPHFARPASRNIDT* -2.322 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22502 CQKMAISWLQIVAILLVSTF 20 SLAY-screened peptide P852 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCAGAAGATGGCGATTAGTTGGCTTCAGATTGTCGCCATTTTGCTGGTCTCTACTTTCTAA CQKMAISWLQIVAILLVSTF* -2.322 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22503 WNQKRLRHRHTPSCSDENYL 20 SLAY-screened peptide P853 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGAACCAGAAGCGTCTCCGTCATCGTCATACTCCGTCTTGCTCCGACGAGAATTATCTGTAA WNQKRLRHRHTPSCSDENYL* -2.319 0.000663 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22504 GGEPAPLSDCACPSCAVCDR 20 SLAY-screened peptide P854 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGGTGAGCCTGCGCCGCTCTCGGATTGCGCCTGTCCTTCTTGTGCGGTGTGTGATCGGTAA GGEPAPLSDCACPSCAVCDR* -2.319 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22505 NFLLFDRNCHYPLTFGPVLG 20 SLAY-screened peptide P855 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTTCCTTTTGTTTGATAGGAATTGTCATTATCCCTTGACCTTTGGTCCGGTTCTTGGTTAA NFLLFDRNCHYPLTFGPVLG* -2.319 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22506 NTYTFMLYGLGHTLLAPRAGN 21 SLAY-screened peptide P856 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACCTACACCTTCATGCTTTACGGCCTGGGTCACACTCTGCTGGCGCCCCGCGCCGGTAAC NTYTFMLYGLGHTLLAPRAGN -2.319 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22507 PPLDTVTHAICEIKYFRQSL 20 SLAY-screened peptide P857 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCCTTGGACACTGTCACGCACGCCATCTGCGAGATCAAGTACTTTCGCCAGTCGCTCTAA PPLDTVTHAICEIKYFRQSL* -2.318 0.001013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22508 GPPVLSFVAINVDAPITTTTN 21 SLAY-screened peptide P858 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCCCCCTGTCCTGTCCTTTGTGGCCATTAATGTTGACGCCCCTATCACTACAACTACTAAC GPPVLSFVAINVDAPITTTTN -2.317 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22509 VTTFTNYYNRAVTLIHLT 18 SLAY-screened peptide P859 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTACGACCTTTACGAATTATTATAATCGTGCCGTCACTCTGATTCACCTGACTTAGCTTTAA VTTFTNYYNRAVTLIHLT*L* -2.316 0.00008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22510 YLRYRTDPNYFHSYNSFCSD 20 SLAY-screened peptide P860 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTTAGGTATCGCACTGATCCTAATTATTTCCATAGTTATAATAGCTTTTGCAGTGACTAA YLRYRTDPNYFHSYNSFCSD* -2.316 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22511 SSEKCYATFLAARYHIFN 18 SLAY-screened peptide P861 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTCCGAGAAGTGTTATGCTACTTTTCTGGCTGCGCGCTATCATATTTTTAATTAGAACTAA SSEKCYATFLAARYHIFN*N* -2.315 0.000645 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22512 VATFVLCLYRTNIQSFLHWD 20 SLAY-screened peptide P862 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGCCACTTTTGTTCTTTGCCTCTATCGCACGAACATTCAGAGCTTTCTTCACTGGGATTAA VATFVLCLYRTNIQSFLHWD* -2.315 0.000025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22513 RCYYPGHIIFKGYVMYNNST 20 SLAY-screened peptide P863 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGTTATTACCCGGGGCATATTATCTTTAAGGGGTACGTCATGTATAATAATTCCACGTAA RCYYPGHIIFKGYVMYNNST* -2.314 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22514 APSRCAFHGT 10 SLAY-screened peptide P864 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCGTCTAGGTGTGCTTTCCACGGTACTTAGGACCATAGTTTTCATAGTTCTTGCACTTAA APSRCAFHGT*DHSFHSSCT* -2.313 0.000646 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22515 LHFLVNTYCTQHVVDLRNMH 20 SLAY-screened peptide P865 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCACTTCCTTGTTAACACCTATTGCACTCAGCACGTCGTTGATTTGCGTAATATGCACTAA LHFLVNTYCTQHVVDLRNMH* -2.312 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22516 VYGILLLLRRRPWCRPLLTCN 21 SLAY-screened peptide P866 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTACGGTATACTCCTCTTATTAAGAAGAAGGCCATGGTGCCGACCCTTACTAACCTGTAAC VYGILLLLRRRPWCRPLLTCN -2.312 0.001166 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22517 IAIPTSYTNVTPRAHSMASL 20 SLAY-screened peptide P867 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCTATCCCCACCAGCTACACGAACGTTACGCCTCGCGCTCACAGCATGGCTTCGCTTTAA IAIPTSYTNVTPRAHSMASL* -2.312 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22518 PMSSTVRLRTTNDDINSCTN 20 SLAY-screened peptide P868 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATGTCTAGTACGGTCCGCCTCCGGACTACCAATGATGACATTAATTCGTGTACTAATTAA PMSSTVRLRTTNDDINSCTN* -2.311 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22519 INTKHGGYRLVCNNLSVHSG 20 SLAY-screened peptide P869 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAACACCAAGCACGGTGGCTATCGCCTGGTCTGCAACAATCTGTCTGTCCATTCCGGTTAA INTKHGGYRLVCNNLSVHSG* -2.311 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22520 LRCAIFWPIILIPP 14 SLAY-screened peptide P870 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGGTGCGCCATCTTCTGGCCTATCATTCTCATTCCTCCTTAGGTCTGTGATAAGGCCTAA LRCAIFWPIILIPP*VCDKA* -2.311 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22521 NTNAMPVSWCSHGCSCGMD 19 SLAY-screened peptide P871 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACGAACGCCATGCCTGTTAGCTGGTGTTCTCACGGTTGCAGTTGCGGCATGGATTAGTAA NTNAMPVSWCSHGCSCGMD** -2.31 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22522 AQADHSNVV 9 SLAY-screened peptide P872 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCAGGCGGATCATTCTAACGTTGTTTAGAATTGCTGTGATAGTCTTGTTTAGTCGTATTAA AQADHSNVV*NCCDSLV*SY* -2.308 0.001745 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22523 DVWSRWCYPLTFANADLLPI 20 SLAY-screened peptide P873 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGTTTGGTCCCGCTGGTGCTATCCTTTGACGTTTGCTAATGCCGACTTGCTCCCTATTTAA DVWSRWCYPLTFANADLLPI* -2.308 0.002886 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22524 SFILHSIAVSPGISAPDFRY 20 SLAY-screened peptide P874 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTTTATCCTCCATTCGATCGCCGTGTCCCCTGGCATCAGCGCTCCGGACTTTCGTTATTAA SFILHSIAVSPGISAPDFRY* -2.307 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22525 YAGPMHIYHNYHCRYSTCSL 20 SLAY-screened peptide P875 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCGGGCCCGATGCACATTTACCATAACTATCACTGCCGGTATTCGACCTGCAGCCTTTAA YAGPMHIYHNYHCRYSTCSL* -2.307 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22526 SHRSHENIPMGIVDSDIIDI 20 SLAY-screened peptide P876 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCATCGGTCCCATGAGAATATTCCGATGGGTATTGTTGACTCCGACATCATTGATATTTAA SHRSHENIPMGIVDSDIIDI* -2.305 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22527 PTPAIYHLRYNRPGEMQPSA 20 SLAY-screened peptide P877 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACGCCTGCTATTTACCACCTTAGGTATAACCGTCCTGGTGAGATGCAGCCCTCGGCCTAA PTPAIYHLRYNRPGEMQPSA* -2.305 0.000228 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22528 RTSWGPCTNNRSAND 15 SLAY-screened peptide P878 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACTAGCTGGGGCCCTTGTACTAACAATCGCTCTGCGAATGACTAGTATTATCCTAATTAA RTSWGPCTNNRSAND*YYPN* -2.304 0.000064 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22529 NHHAPCISVL 10 SLAY-screened peptide P879 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCACCATGCGCCCTGCATCTCTGTCCTGTAGCGGATGGCTCTTACCATGGACGGTGCGTAA NHHAPCISVL*RMALTMDGA* -2.303 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22530 LHDNVTDPLFCSRTPSTKAA 20 SLAY-screened peptide P880 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCACGATAACGTGACTGACCCGCTCTTTTGTAGCCGTACCCCGAGTACGAAGGCTGCCTAA LHDNVTDPLFCSRTPSTKAA* -2.303 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22531 SMVPRRHYDPGSKSLTSFWS 20 SLAY-screened peptide P881 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTATGGTCCCTCGTAGGCACTACGACCCGGGCTCTAAGTCCCTTACCAGTTTCTGGAGTTAA SMVPRRHYDPGSKSLTSFWS* -2.303 0.000146 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22532 TMTTHRLSLCHRNCHRRHLSR 21 SLAY-screened peptide P882 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTATGACGACTCATCGTCTCTCTTTGTGCCACCGCAATTGCCACCGGCGTCATTTAAGTCGA TMTTHRLSLCHRNCHRRHLSR -2.303 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22533 ACQSASLYQIHRDEALTLKN 20 SLAY-screened peptide P883 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTGTCAGTCGGCCAGTCTGTACCAGATCCATAGGGACGAGGCTCTCACCCTCAAGAATTAA ACQSASLYQIHRDEALTLKN* -2.302 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22534 MHPRHKQYWFHLLLLHIANT 20 SLAY-screened peptide P884 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCACCCCAGGCACAAGCAGTACTGGTTTCATCTTTTGCTCTTGCATATTGCTAATACTTAA MHPRHKQYWFHLLLLHIANT* -2.302 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22535 TLHRYHYRQINMVSILSSHV 20 SLAY-screened peptide P885 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCTCCATCGTTATCACTACCGTCAGATTAACATGGTCTCTATTCTGAGTTCTCATGTGTAA TLHRYHYRQINMVSILSSHV* -2.3 0.000131 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22536 PQAEISYSLCILRAR 15 SLAY-screened peptide P886 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCAGGCGGAGATCTCCTATAGCCTTTGCATTCTTCGGGCTCGTTAGTGGTTGTTCAATTAA PQAEISYSLCILRAR*WLFN* -2.299 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22537 VCTYAHPYRRYWIPYVYMRL 20 SLAY-screened peptide P887 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTGTACTTACGCTCACCCCTATCGGCGCTACTGGATTCCTTATGTCTATATGCGCTTGTAA VCTYAHPYRRYWIPYVYMRL* -2.296 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22538 RRSAVRVRHPPGISTYYRLP 20 SLAY-screened peptide P888 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCGCAGCGCTGTTAGGGTTCGGCATCCTCCGGGGATTAGCACGTATTATCGGCTTCCCTAA RRSAVRVRHPPGISTYYRLP* -2.295 0.000055 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22539 PQINFIPLPLLLVSRVFPWVN 21 SLAY-screened peptide P889 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCAGATTAACTTCATTCCGTTACCCCTACTGTTGGTTAGCCGTGTTTTCCCCTGGGTTAAC PQINFIPLPLLLVSRVFPWVN -2.295 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22540 AVGLPSYMFHPVMPNLRNHN 20 SLAY-screened peptide P890 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGTGGGGCTTCCCTCTTACATGTTCCATCCCGTTATGCCCAATCTTAGGAATCACAACTAA AVGLPSYMFHPVMPNLRNHN* -2.294 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22541 HDQRAVVTSLSFLLLVLSSV 20 SLAY-screened peptide P891 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGATCAGCGCGCGGTTGTCACTAGTCTTAGCTTCCTGTTGCTCGTTCTGTCCTCCGTTTAA HDQRAVVTSLSFLLLVLSSV* -2.293 0.000637 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22542 FRPLQAEAYNY 11 SLAY-screened peptide P892 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCGGCCCTTGCAGGCTGAGGCTTACAACTATTAGAACGTTGCGTGCATTTTTAGTCAGTAA FRPLQAEAYNY*NVACIFSQ* -2.291 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22543 PFRSNTNKYTMCSGESFSNS 20 SLAY-screened peptide P893 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTCCGCAGTAATACGAATAAGTATACTATGTGTTCCGGCGAGAGCTTTTCGAATAGTTAA PFRSNTNKYTMCSGESFSNS* -2.29 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22544 VWHPPLRAEPFTPSPDNHSA 20 SLAY-screened peptide P894 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTGGCACCCCCCGCTTCGGGCCGAGCCGTTCACTCCGTCTCCTGATAACCATTCGGCGTAA VWHPPLRAEPFTPSPDNHSA* -2.289 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22545 CPWYIDSSSAGHYFRLTSLM 20 SLAY-screened peptide P895 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCCTGGTACATCGACTCCAGTTCGGCCGGTCACTACTTTAGGCTTACGTCGCTGATGTAA CPWYIDSSSAGHYFRLTSLM* -2.289 0.002115 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22546 RSTFHIGDGNNNHRDKSHYL 20 SLAY-screened peptide P896 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTCGACGTTTCACATCGGCGATGGCAATAATAACCACCGTGATAAGTCTCATTATTTGTAA RSTFHIGDGNNNHRDKSHYL* -2.287 0.000187 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22547 PLFIVMLWVRRLKNAYAPML 20 SLAY-screened peptide P897 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTCTTTATTGTCATGCTGTGGGTTCGCCGTCTTAAGAATGCCTATGCCCCTATGCTGTAA PLFIVMLWVRRLKNAYAPML* -2.287 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22548 LTSAKGTHCEFYPAPYQGIV 20 SLAY-screened peptide P898 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACGAGCGCCAAGGGTACTCATTGTGAGTTTTATCCGGCCCCCTATCAGGGTATTGTCTAA LTSAKGTHCEFYPAPYQGIV* -2.287 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22549 NAKVWNRNI 9 SLAY-screened peptide P899 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGCGAAGGTGTGGAATAGGAATATTTAGTAGGACAATTGTCCTAGTAGTAGGGATGACTAA NAKVWNRNI**DNCPSSRDD* -2.286 0.001886 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22550 DAPLLSTPFVSNAHSRCTNS 20 SLAY-screened peptide P900 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGCGCCTCTTCTCTCTACCCCGTTTGTGTCCAACGCTCACAGTCGGTGTACTAACTCTTAA DAPLLSTPFVSNAHSRCTNS* -2.286 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22551 TLSRLWRHLRITFTLHIDRL 20 SLAY-screened peptide P901 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTTGTCTAGGCTCTGGCGGCACCTTCGCATCACGTTTACGCTCCATATCGACAGGCTGTAA TLSRLWRHLRITFTLHIDRL* -2.286 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22552 HTSAAAPSHTSHTIANADES 20 SLAY-screened peptide P902 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACTAGTGCTGCTGCGCCGAGCCACACGAGCCATACTATCGCTAACGCTGACGAGAGCTAA HTSAAAPSHTSHTIANADES* -2.284 0.001094 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22553 IRHGLSSATNLRATPSVPISN 21 SLAY-screened peptide P903 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCGCCATGGTTTGTCGTCTGCCACCAATCTGAGGGCCACTCCTTCAGTTCCGATTAGTAAC IRHGLSSATNLRATPSVPISN -2.281 0.000358 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22554 PLLRPWDIQNHILGEYCNPC 20 SLAY-screened peptide P904 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTGCTGCGGCCTTGGGACATCCAGAATCACATCCTGGGTGAGTATTGCAATCCTTGTTAA PLLRPWDIQNHILGEYCNPC* -2.281 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22555 IYSKFTYSVNNIPGRSAFAA 20 SLAY-screened peptide P905 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTACAGCAAGTTTACCTACAGTGTTAACAACATCCCCGGCAGGAGTGCCTTTGCCGCTTAA IYSKFTYSVNNIPGRSAFAA* -2.28 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22556 STQNNWSLCLSSHTYNSFFT 20 SLAY-screened peptide P906 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACTCAGAATAATTGGTCGCTCTGTTTGTCCTCCCATACTTATAACAGTTTTTTTACTTAA STQNNWSLCLSSHTYNSFFT* -2.28 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22557 CTSYPFLMPLQFLPLGQAWV 20 SLAY-screened peptide P907 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACGAGCTATCCTTTTTTGATGCCTTTGCAGTTTCTTCCCCTCGGCCAGGCTTGGGTTTAA CTSYPFLMPLQFLPLGQAWV* -2.278 0.001043 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22558 TYRNLDTDE 9 SLAY-screened peptide P908 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTACCGTAACCTCGACACGGACGAGTAGCAGGGTAACGCGCTTCCTATTTAGCATGCGTAA TYRNLDTDE*QGNALPI*HA* -2.278 0.000172 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22559 RARSTPHNPRNIFRRKFDCL 20 SLAY-screened peptide P909 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGCGCGGTCTACCCCTCATAACCCTAGGAACATCTTTAGGCGGAAGTTTGACTGTCTGTAA RARSTPHNPRNIFRRKFDCL* -2.278 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22560 PDSKVYHDCSALYNNTYIML 20 SLAY-screened peptide P910 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGACTCCAAGGTTTACCACGATTGTTCCGCGCTGTATAATAATACGTATATCATGTTGTAA PDSKVYHDCSALYNNTYIML* -2.278 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22561 YTDVIILVARPRRSIRSTPRN 21 SLAY-screened peptide P911 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACGGACGTCATAATTCTGGTGGCCCGACCACGCAGAAGCATACGGAGCACTCCGCGTAAC YTDVIILVARPRRSIRSTPRN -2.278 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22562 VHLDSLYPVYEYHKYINLNF 20 SLAY-screened peptide P912 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCACCTTGACTCTCTCTATCCCGTTTACGAGTACCACAAGTACATTAACTTGAATTTTTAA VHLDSLYPVYEYHKYINLNF* -2.277 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22563 STSGMYNSLYSLTCRTYTYN 20 SLAY-screened peptide P913 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACTAGTGGCATGTACAATAGTCTTTATAGCCTCACCTGCCGTACCTATACTTATAATTAA STSGMYNSLYSLTCRTYTYN* -2.275 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22564 RPDCNKYTKHLYSFQTKAIG 20 SLAY-screened peptide P914 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCTGATTGCAATAAGTACACTAAGCATCTCTACAGCTTCCAGACGAAGGCTATCGGCTAA RPDCNKYTKHLYSFQTKAIG* -2.274 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22565 KNLSFTCNPSQYRIVMLKHLT 21 SLAY-screened peptide P915 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGAATCTCTCTTTCACTTGTAACCCTAGCCAGTACCGCATCGTTATGTTGAAACATTTAACT KNLSFTCNPSQYRIVMLKHLT -2.273 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22566 SRNSFDTTSHPIPS 14 SLAY-screened peptide P916 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCGCAACTCGTTCGATACTACTTCTCATCCTATTCCGAGTTAGCGCCTGGGTATCTACTAA SRNSFDTTSHPIPS*RLGIY* -2.272 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22567 HSHPLWDNF 9 SLAY-screened peptide P917 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCTCATCCTTTGTGGGATAATTTCTAGCCGCCTAACAACGTTTATGCGCTGCTTCACTAA HSHPLWDNF*PPNNVYALLH* -2.271 0.000317 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22568 DIKPRCYLGHLYGYLNHDFG 20 SLAY-screened peptide P918 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACATTAAGCCGCGCTGCTATCTTGGCCATCTGTACGGTTATCTTAACCATGACTTCGGGTAA DIKPRCYLGHLYGYLNHDFG* -2.27 0.000829 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22569 VS 2 SLAY-screened peptide P919 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTCTTAGGGCGTTCGCAACCTTGTTGAGAATTAGGTGTATCATGTCATGCATACCTAACTG VS*GVRNLVEN*VYHVMHT*L -2.269 0.000136 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22570 AGSSYLPHTCCRCCPHVEYV 20 SLAY-screened peptide P920 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGGCAGCTCGTACTTGCCTCACACCTGCTGCCGTTGCTGCCCCCACGTCGAGTACGTTTAA AGSSYLPHTCCRCCPHVEYV* -2.269 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22571 TFSRAPHPYSTSAAVLSLLS 20 SLAY-screened peptide P921 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTTCTCTCGTGCTCCGCACCCCTACAGCACTTCCGCTGCGGTCCTTTCCCTGCTCTCCTAA TFSRAPHPYSTSAAVLSLLS* -2.268 0.000114 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22572 LSNSTLASTLPRYTASRDKI 20 SLAY-screened peptide P922 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCTAACAGTACCCTCGCGTCGACGCTCCCGCGTTACACTGCTTCGCGCGACAAGATCTAA LSNSTLASTLPRYTASRDKI* -2.268 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22573 YLLSLDNDTHHIVYHSGEAR 20 SLAY-screened peptide P923 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTTCTGAGCCTTGACAATGATACTCATCATATCGTTTATCATAGTGGCGAGGCTCGGTAA YLLSLDNDTHHIVYHSGEAR* -2.268 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22574 PCPTDSWRWPLILTNVQSVV 20 SLAY-screened peptide P924 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGCCCCACCGACAGCTGGCGGTGGCCTCTCATCTTGACCAACGTTCAGTCCGTCGTGTAA PCPTDSWRWPLILTNVQSVV* -2.266 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22575 YNRDDYFRNYHYRCLYPTLS 20 SLAY-screened peptide P925 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACAACCGTGACGATTATTTTAGGAATTACCATTACCGCTGCCTCTATCCCACGCTTAGCTAA YNRDDYFRNYHYRCLYPTLS* -2.265 0.001245 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22576 PDIIRAFNTIPDRIFGYASQ 20 SLAY-screened peptide P926 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGACATTATCCGCGCTTTCAACACTATTCCTGACCGTATTTTTGGCTATGCTTCCCAGTAA PDIIRAFNTIPDRIFGYASQ* -2.262 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22577 SCSHIPSRDFWTHSHTIQRA 20 SLAY-screened peptide P927 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTGCTCCCACATCCCCTCGCGCGACTTCTGGACCCATTCGCACACTATCCAGCGTGCCTAA SCSHIPSRDFWTHSHTIQRA* -2.262 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22578 NRFGYLDPVSSEFDIFGRRP 20 SLAY-screened peptide P928 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCGTTTTGGTTATCTTGATCCTGTCAGCAGTGAGTTTGACATCTTTGGCCGCCGTCCGTAA NRFGYLDPVSSEFDIFGRRP* -2.262 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22579 PLLQVCVPYIPWKGLYFYRC 20 SLAY-screened peptide P929 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGCTCCAGGTTTGTGTTCCGTATATTCCTTGGAAGGGCCTGTATTTCTACCGTTGTTAA PLLQVCVPYIPWKGLYFYRC* -2.262 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22580 LLISFLPAAMTYPRSPRSAS 20 SLAY-screened peptide P930 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTTATTTCCTTCCTTCCCGCGGCGATGACCTACCCTCGCAGCCCTCGTAGTGCTTCCTAA LLISFLPAAMTYPRSPRSAS* -2.26 0.000048 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22581 FHHLPVALWFPKPVLSLGTC 20 SLAY-screened peptide P931 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCACCATCTTCCCGTGGCCTTGTGGTTCCCTAAGCCGGTCTTGTCTCTGGGTACTTGTTAA FHHLPVALWFPKPVLSLGTC* -2.259 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22582 APNLKLAFPRHLMFTINNTC 20 SLAY-screened peptide P932 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCCAACCTTAAGTTGGCGTTTCCCCGTCATCTTATGTTCACTATTAATAACACCTGTTAA APNLKLAFPRHLMFTINNTC* -2.259 0.000342 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22583 PNKTIWITTTASRVRLGSLTN 21 SLAY-screened peptide P933 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAACAAGACTATCTGGATCACAACTACAGCCTCCCGTGTCAGATTAGGATCCCTAACTAAC PNKTIWITTTASRVRLGSLTN -2.258 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22584 PMDTDSPLTSSNRAYHLVQ 19 SLAY-screened peptide P934 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATGGATACTGATAGTCCTCTGACTTCCTCTAACCGTGCGTACCACCTTGTTCAGTAACTG PMDTDSPLTSSNRAYHLVQ*L -2.258 0.000156 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22585 EDDSKLILSVPWFHLYRRRRN 21 SLAY-screened peptide P935 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGACGACTCCAAGCTGATCCTCAGTGTCCCGTGGTTCCATCTCTACCGGCGTAGGCGTAAC EDDSKLILSVPWFHLYRRRRN -2.258 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22586 LQALVSSSLPRTRYLHAYCV 20 SLAY-screened peptide P936 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCAGGCCCTTGTTAGTAGTTCTCTTCCGCGTACTCGTTACTTGCACGCTTATTGCGTCTAA LQALVSSSLPRTRYLHAYCV* -2.258 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22587 LSHSFTDNLFN 11 SLAY-screened peptide P937 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCTCACAGTTTTACTGATAATTTGTTCAATTAGTTTGTTCCGACCTGTACCGGCCAGTAA LSHSFTDNLFN*FVPTCTGQ* -2.258 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22588 NPGQRSNSDQSY 12 SLAY-screened peptide P938 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCCCGGGCAGAGGTCGAACTCGGATCAGAGTTACTAGTTTTCCGATAAGGAGCACTGCTAA NPGQRSNSDQSY*FSDKEHC* -2.257 0.000438 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22589 FPNTANFVLCYKTLCLKYSD 20 SLAY-screened peptide P939 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCTAACACTGCTAACTTTGTTTTGTGCTATAAGACGCTCTGCCTCAAGTATTCTGACTAA FPNTANFVLCYKTLCLKYSD* -2.256 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22590 TIVSVP 6 SLAY-screened peptide P940 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTATCGTTTCTGTTCCTTAGCAGGCTGTCAGTTACATTTTCGGCTATAATTAGCTTGAGTAA TIVSVP*QAVSYIFGYN*LE* -2.256 0.000182 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22591 WPLNMHHPNLIISYTSSYRL 20 SLAY-screened peptide P941 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCTCTCAACATGCATCATCCTAATTTGATTATTAGCTACACGTCTTCGTACCGCCTCTAA WPLNMHHPNLIISYTSSYRL* -2.256 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22592 SLCHFLTNPPPESSRYT 17 SLAY-screened peptide P942 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCTTTGCCATTTTCTTACTAACCCGCCTCCTGAGTCTTCGCGTTATACGTAGCTTATGTAA SLCHFLTNPPPESSRYT*LM* -2.255 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22593 PSDFAATCWRYIKKARHVFL 20 SLAY-screened peptide P943 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCTGATTTTGCTGCCACTTGCTGGCGCTACATCAAGAAGGCTCGTCATGTTTTTCTTTAA PSDFAATCWRYIKKARHVFL* -2.255 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22594 LHYLDGFYNDNTTYLMLQAP 20 SLAY-screened peptide P944 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCACTATCTGGACGGTTTCTATAATGATAATACCACTTACTTGATGCTCCAGGCTCCCTAA LHYLDGFYNDNTTYLMLQAP* -2.254 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22595 TLGRLQLPVPFIGDLAHNNM 20 SLAY-screened peptide P945 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTGGGCCGCCTGCAGCTTCCCGTCCCCTTCATTGGGGATCTTGCCCACAATAATATGTAA TLGRLQLPVPFIGDLAHNNM* -2.254 0.001787 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22596 PCPFLPPIHSCSKGLQRYNH 20 SLAY-screened peptide P946 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCCCCTTTCTGCCGCCTATCCATTCCTGCTCTAAGGGGCTTCAGAGGTATAATCATTAA PCPFLPPIHSCSKGLQRYNH* -2.254 0.000074 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22597 PLRDHWSNLHHMSVPNWGLC 20 SLAY-screened peptide P947 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCCGGGATCACTGGTCTAACCTTCACCACATGTCTGTTCCTAATTGGGGGCTGTGTTAA PLRDHWSNLHHMSVPNWGLC* -2.251 0.000039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22598 AMHVLLHRASFYTSAFWHA 19 SLAY-screened peptide P948 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGATGCATGTTCTTCTCCATCGTGCTTCTTTTTATACCTCGGCCTTTTGGCACGCTTAGTAA AMHVLLHRASFYTSAFWHA** -2.251 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22599 PICHYPYPALQPLHRPYRAAL 21 SLAY-screened peptide P949 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATCTGCCATTACCCTTACCCTGCGCTTCAGCCTCTGCATCGGCCATATCGTGCCGCCCTA PICHYPYPALQPLHRPYRAAL -2.251 0.000024 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22600 LQTWLFKAESCIIHLSHCET 20 SLAY-screened peptide P950 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCAGACGTGGCTTTTTAAGGCTGAGAGCTGTATTATTCACTTGTCCCACTGTGAGACCTAA LQTWLFKAESCIIHLSHCET* -2.25 0.000098 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22601 SLPYLHLSLNLNSGYTGNAP 20 SLAY-screened peptide P951 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCTGCCGTACCTTCACCTGTCGCTGAACCTCAATTCCGGTTACACTGGCAACGCCCCGTAA SLPYLHLSLNLNSGYTGNAP* -2.249 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22602 LLYFLLLYNNRTPECRRGPSN 21 SLAY-screened peptide P952 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTCTACTTCCTCCTTTTGTATAATAATAGGACTCCCGAATGTCGAAGAGGCCCCTCTAAC LLYFLLLYNNRTPECRRGPSN -2.249 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22603 GNPAYSSIHTVGLRKHKNTD 20 SLAY-screened peptide P953 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTAATCCTGCCTATAGCTCCATCCACACCGTTGGTCTGCGTAAGCATAAGAATACTGATTAA GNPAYSSIHTVGLRKHKNTD* -2.248 0.00251 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22604 TCRPFSAAYLFDDRHNIRPT 20 SLAY-screened peptide P954 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTGTCGCCCTTTCAGTGCCGCTTATCTTTTTGATGATCGGCACAATATCCGCCCTACTTAA TCRPFSAAYLFDDRHNIRPT* -2.247 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22605 PPHCRSRSGYCFRIRAY 17 SLAY-screened peptide P955 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCCATTGTCGTAGCCGCTCGGGGTATTGCTTCCGTATTCGCGCGTACTAGATTACGTAA PPHCRSRSGYCFRIRAY*IT* -2.247 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22606 HYCAVTTPHVRCLATT 16 SLAY-screened peptide P956 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTATTGTGCTGTTACTACTCCTCATGTGCGGTGCCTGGCTACCACCTAGCCCGGCTATTAA HYCAVTTPHVRCLATT*PGY* -2.246 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22607 PDDI 4 SLAY-screened peptide P957 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGATGATATTTAGCCTCTTATGCACAATTACATTACCATTCCCTTGCCGCATCTCCATTAA PDDI*PLMHNYITIPLPHLH* -2.245 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22608 PSHDQRTILMLNLMYALQCV 20 SLAY-screened peptide P958 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCCCATGACCAGAGGACGATCCTTATGTTGAATCTTATGTATGCTCTCCAGTGTGTGTAA PSHDQRTILMLNLMYALQCV* -2.245 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22609 SRPIYTWIYSPIPLYNAFKT 20 SLAY-screened peptide P959 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGTCCCATCTATACTTGGATTTATAGCCCCATCCCCTTGTACAACGCGTTTAAGACCTAA SRPIYTWIYSPIPLYNAFKT* -2.244 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22610 ILYRKNFGCVAHIVGVVRAV 20 SLAY-screened peptide P960 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTTTACCGCAAGAATTTTGGTTGTGTCGCTCACATTGTGGGTGTTGTGCGGGCTGTCTAA ILYRKNFGCVAHIVGVVRAV* -2.243 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22611 RTC 3 SLAY-screened peptide P961 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACTTGTTAGAACTCCTATTGCCGCCTTAGCCACCAGGGCCTTAATAATCTTCGTAACTAA RTC*NSYCRLSHQGLNNLRN* -2.243 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22612 NCNLESCSYDRTGLDGPD 18 SLAY-screened peptide P962 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGTAACCTTGAGAGTTGCTCTTATGATAGAACAGGTCTAGATGGGCCTGACTGATAACTG NCNLESCSYDRTGLDGPD**L -2.242 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22613 CHTSNTSPGVKLASNPPNTD 20 SLAY-screened peptide P963 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACACCTCTAACACTAGCCCGGGCGTTAAGTTGGCTTCTAATCCGCCGAATACCGACTAA CHTSNTSPGVKLASNPPNTD* -2.242 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22614 PDFSKTTLCGPTASETADPL 20 SLAY-screened peptide P964 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGATTTTAGTAAGACGACGCTTTGCGGTCCGACCGCTTCTGAGACTGCGGATCCCCTTTAA PDFSKTTLCGPTASETADPL* -2.242 0.000132 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22615 ACYAHTNGIHPEHNATHMCD 20 SLAY-screened peptide P965 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTGCTACGCCCACACTAACGGTATTCATCCTGAGCATAACGCTACCCACATGTGCGATTAA ACYAHTNGIHPEHNATHMCD* -2.241 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22616 RRTNSRAFTTLLRRVALKTM 20 SLAY-screened peptide P966 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGTACCAACTCCAGGGCTTTCACCACGCTGCTGAGGCGTGTCGCCCTTAAGACCATGTAA RRTNSRAFTTLLRRVALKTM* -2.24 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22617 SRPRLATSCSHLLTSALPSTN 21 SLAY-screened peptide P967 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCGTCCTCGGCTTGCTACCTCTTGCTCCCATCTACTTACAAGCGCACTACCTTCAACTAAC SRPRLATSCSHLLTSALPSTN -2.238 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22618 IILIFLRNRPRGC 13 SLAY-screened peptide P968 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTATTCTCATCTTCCTTCGTAACCGTCCGAGGGGGTGTTAGACGCACAGCGACTCCTGCTAA IILIFLRNRPRGC*THSDSC* -2.238 0.002889 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22619 SNRFYTMPHHTPTELEPRSP 20 SLAY-screened peptide P969 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAACCGGTTCTACACCATGCCGCACCACACTCCTACTGAGCTTGAGCCTCGTAGCCCGTAA SNRFYTMPHHTPTELEPRSP* -2.237 0.000227 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22620 RPIFLSTAYRTDYYPITYSV 20 SLAY-screened peptide P970 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCCATCTTCTTGTCCACGGCGTACCGTACTGATTATTACCCGATCACGTACTCCGTTTAA RPIFLSTAYRTDYYPITYSV* -2.236 0.002588 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22621 HFYTDIYKALRIGHNATKLH 20 SLAY-screened peptide P971 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTTTTACACTGATATTTACAAGGCTCTCCGTATCGGTCACAACGCCACTAAGCTGCACTAA HFYTDIYKALRIGHNATKLH* -2.236 0.000042 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22622 PTVGVWSLLPYRCTNIYTRA 20 SLAY-screened peptide P972 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACCGTCGGGGTCTGGTCCCTCCTGCCGTATCGGTGCACCAATATCTACACGCGTGCTTAA PTVGVWSLLPYRCTNIYTRA* -2.235 0.003337 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22623 GHQLSNPPFSPNLRTHTYGL 20 SLAY-screened peptide P973 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCATCAGCTGTCCAATCCGCCGTTCAGCCCGAACCTTCGTACGCACACGTATGGTCTGTAA GHQLSNPPFSPNLRTHTYGL* -2.235 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22624 RLSCDYRRAACLEHNFSLFQY 21 SLAY-screened peptide P974 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTTTCGTGCGACTATCGGCGTGCCGCGTGTCTTGAGCATAACTTTTCGCTGTTCCAGTAC RLSCDYRRAACLEHNFSLFQY -2.234 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22625 RDYKLTFTYFSSHGHSR 17 SLAY-screened peptide P975 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGACTATAAGCTCACTTTTACTTACTTTTCGAGTCACGGGCATTCTCGGTAGCGTAGTTAA RDYKLTFTYFSSHGHSR*RS* -2.234 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22626 SSYLITDSDIDSVPDSFIST 20 SLAY-screened peptide P976 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCAGTTATCTTATCACTGACAGCGATATTGACTCTGTTCCTGATTCTTTCATTTCCACCTAA SSYLITDSDIDSVPDSFIST* -2.233 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22627 TQHSLHEPGTDLASSTTFL 19 SLAY-screened peptide P977 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCAGCACTCCCTCCATGAGCCCGGTACGGACCTGGCCAGTTCTACTACTTTTCTCTAGCTC TQHSLHEPGTDLASSTTFL*L -2.231 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22628 LRHPRDLVGSDTVTLHHFIS 20 SLAY-screened peptide P978 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAGGCATCCCCGTGATCTCGTTGGTTCTGATACTGTCACTCTGCATCATTTTATTTCCTAA LRHPRDLVGSDTVTLHHFIS* -2.23 0.000243 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22629 TARI 4 SLAY-screened peptide P979 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCCCGTATTTAGATTAACCCTGACAGCAATCTTATTATCAACAGCCCCTTTTAGTACTAA TARI*INPDSNLIINSPF*Y* -2.23 0.000262 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22630 YAYSPHVYAHTFQRDYYRNL 20 SLAY-screened peptide P980 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGCCTATTCCCCTCATGTGTATGCTCATACGTTTCAGAGGGACTACTATAGGAATCTGTAA YAYSPHVYAHTFQRDYYRNL* -2.229 0.000633 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22631 ATKPLSNTMHTN 12 SLAY-screened peptide P981 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTACCAAGCCCCTTTCTAACACGATGCATACTAATTAGTTTAACAGCGTTACGGTCCAGTAA ATKPLSNTMHTN*FNSVTVQ* -2.229 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22632 LHNSTIGENFR 11 SLAY-screened peptide P982 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCATAATAGCACCATCGGCGAGAATTTTCGTTAGTTTTCCCATTATACGATGACTATGTAA LHNSTIGENFR*FSHYTMTM* -2.229 0.000068 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22633 IARALRSYVGLFAVAQ 16 SLAY-screened peptide P983 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCGCGGGCACTGCGCTCTTATGTGGGCCTTTTTGCAGTAGCTCAGTAGTAAGGTCTAACT IARALRSYVGLFAVAQ**GLT -2.229 0.00089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22634 PPCAFIPMLARHQQSTRTLE 20 SLAY-screened peptide P984 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCCTGTGCGTTTATTCCGATGTTGGCTCGTCACCAGCAGTCCACTAGGACTCTGGAGTAA PPCAFIPMLARHQQSTRTLE* -2.229 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22635 PYNCKNTWSLRSHIRQALHN 20 SLAY-screened peptide P985 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTACAATTGTAAGAATACGTGGTCCTTGCGGTCGCATATCAGGCAGGCGCTCCATAACTAA PYNCKNTWSLRSHIRQALHN* -2.228 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22636 RITRRSRGYLPDRDGTVSNR 20 SLAY-screened peptide P986 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTATTACCAGGCGTTCTAGGGGTTATTTGCCTGATAGGGACGGCACGGTCTCGAACCGTTAA RITRRSRGYLPDRDGTVSNR* -2.226 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22637 YSPSDPPHYSVLPFYEIAAA 20 SLAY-screened peptide P987 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCCCCGAGTGATCCTCCGCATTACTCGGTGCTGCCCTTTTATGAGATTGCTGCTGCTTAA YSPSDPPHYSVLPFYEIAAA* -2.225 0.000232 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22638 LPTACDYVGHHNDKTMTRLY 20 SLAY-screened peptide P988 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCCACGGCGTGCGACTATGTCGGTCACCATAACGACAAGACCATGACCCGTCTTTACTAA LPTACDYVGHHNDKTMTRLY* -2.225 0.000454 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22639 LVTW 4 SLAY-screened peptide P989 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGTTACTTGGTAGCACCACTTTTGCCACCAGTTGTCTCACCAGATTAATTATTTTTGTTAA LVTW*HHFCHQLSHQINYFC* -2.225 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22640 GASHFFPLSFDINVYLC 17 SLAY-screened peptide P990 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGGCTAGTCATTTTTTCCCTTTGTCTTTCGATATTAATGTTTATCTGTGCTAGTCGACCTAA GASHFFPLSFDINVYLC*ST* -2.224 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22641 PHRPFWFSLGHSVLSQALAF 20 SLAY-screened peptide P991 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCACCGTCCTTTTTGGTTTAGCCTGGGCCATTCTGTGCTGTCTCAGGCGCTTGCCTTTTAA PHRPFWFSLGHSVLSQALAF* -2.224 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22642 LGPSLRCMPLWQYYSI 16 SLAY-screened peptide P992 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGGTCCGTCCCTTCGCTGCATGCCCCTCTGGCAGTACTACTCTATCTAGCGGAGTTACTAA LGPSLRCMPLWQYYSI*RSY* -2.223 0.001571 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22643 RHVVLMLHTSDAYTSAPHFS 20 SLAY-screened peptide P993 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCACGTCGTGCTGATGCTGCACACCTCTGACGCGTACACTTCCGCCCCCCATTTCTCCTAA RHVVLMLHTSDAYTSAPHFS* -2.222 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22644 DPIYISS 7 SLAY-screened peptide P994 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCGATCTATATTAGCAGTTAGACTAAGCATAGTACTATCTCCAATTACTCTAACTCTTAA DPIYISS*TKHSTISNYSNS* -2.221 0.000193 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22645 LSGIYMWCFVCINSSASPAP 20 SLAY-screened peptide P995 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCTGGTATCTACATGTGGTGTTTCGTTTGTATCAACAGCTCTGCGAGTCCGGCCCCGTAA LSGIYMWCFVCINSSASPAP* -2.22 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22646 VHLVNYGLVSRWPPDPTGRP 20 SLAY-screened peptide P996 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCACCTTGTTAATTATGGCTTGGTTTCGCGTTGGCCCCCTGATCCCACCGGTAGGCCCTAA VHLVNYGLVSRWPPDPTGRP* -2.22 0.000452 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22647 RRYLRFSGYYLHSTHNKCHY 20 SLAY-screened peptide P997 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGCTATCTTCGCTTCTCCGGGTACTATCTGCATAGTACTCATAACAAGTGTCACTATTAA RRYLRFSGYYLHSTHNKCHY* -2.218 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22648 RPPVNSHTSST 11 SLAY-screened peptide P998 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCTCCGGTTAATTCGCACACCAGTAGCACGTAGGCTGCGCCTACCGCTTTGAACGTTTAA RPPVNSHTSST*AAPTALNV* -2.218 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22649 YTMNIDSRVENLPIP 15 SLAY-screened peptide P999 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATACCATGAATATCGACAGTAGGGTGGAGAATCTTCCGATCCCTTAGCATTCTATTACTAAC YTMNIDSRVENLPIP*HSITN -2.218 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22650 APTNYPVVYYNSTTIEKVSG 20 SLAY-screened peptide P1000 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCGACGAACTATCCTGTTGTCTACTACAATTCGACGACCATTGAGAAGGTTTCGGGTTAA APTNYPVVYYNSTTIEKVSG* -2.217 0.003046 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22651 PTTLRIRVSPFLARCRRARRN 21 SLAY-screened peptide P1001 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACGACGTTGCGGATCAGAGTTAGTCCATTCTTGGCCCGCTGCAGACGCGCGAGACGTAAC PTTLRIRVSPFLARCRRARRN -2.216 0.000096 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22652 RVTIYPGAATPVDKRHLTPA 20 SLAY-screened peptide P1002 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGTCACGATTTATCCTGGCGCGGCTACTCCTGTCGACAAGAGGCACCTTACCCCGGCGTAA RVTIYPGAATPVDKRHLTPA* -2.215 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22653 RRTSGLAVCNQLHFAICIYN 20 SLAY-screened peptide P1003 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCGTACCTCTGGTCTCGCGGTTTGCAACCAGCTGCACTTTGCTATTTGTATTTATAATTAA RRTSGLAVCNQLHFAICIYN* -2.215 0.000199 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22654 PLYGNTVSYPVASLQRYANL 20 SLAY-screened peptide P1004 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTTTATGGCAATACCGTTAGCTATCCCGTGGCGAGTCTTCAGCGCTATGCTAATCTCTAA PLYGNTVSYPVASLQRYANL* -2.215 0.000123 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22655 FLDPEPKCIHNRNHNPTPSD 20 SLAY-screened peptide P1005 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTTGGACCCTGAGCCCAAGTGTATCCATAACCGGAATCATAACCCTACCCCCAGTGATTAA FLDPEPKCIHNRNHNPTPSD* -2.215 0.000449 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22656 LLIHLCRCPNLCSLVSGNNT 20 SLAY-screened peptide P1006 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTCATTCACCTCTGCAGGTGCCCCAATCTGTGTAGCCTTGTGAGCGGTAACAATACTTAA LLIHLCRCPNLCSLVSGNNT* -2.214 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22657 DALAHAHYSPLNNSHCCYCY 20 SLAY-screened peptide P1007 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGCCCTCGCTCACGCTCATTATTCTCCTCTGAACAACAGTCATTGTTGTTACTGCTACTAA DALAHAHYSPLNNSHCCYCY* -2.214 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22658 PLSSKRNNTHYSHTRAYKIR 20 SLAY-screened peptide P1008 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTTGTCGTCTAAGAGGAATAACACTCATTACTCTCACACGCGCGCTTATAAGATCCGTTAA PLSSKRNNTHYSHTRAYKIR* -2.213 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22659 TYIAHCSVGRLYMYYSINRS 20 SLAY-screened peptide P1009 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTACATTGCTCATTGTAGCGTTGGCCGCCTGTATATGTACTACAGCATTAATCGTTCCTAA TYIAHCSVGRLYMYYSINRS* -2.21 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22660 YFLSCPLMQANPGTVAT 17 SLAY-screened peptide P1010 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTTTCTTTCCTGTCCGCTCATGCAGGCTAATCCGGGTACCGTCGCGACCTAGGGGCACTAA YFLSCPLMQANPGTVAT*GH* -2.208 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22661 PHCDSTIYIRHYPRDNMALT 20 SLAY-screened peptide P1011 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCATTGTGACTCGACCATTTACATCAGGCATTATCCTCGCGATAATATGGCTCTGACCTAA PHCDSTIYIRHYPRDNMALT* -2.208 0.000019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22662 QHTHSRKADTCITPMPCSAD 20 SLAY-screened peptide P1012 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCATACTCACTCTCGTAAGGCCGATACTTGCATTACGCCCATGCCGTGTAGTGCCGATTAA QHTHSRKADTCITPMPCSAD* -2.208 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22663 TTRHSHVKTCFYTGVPLHPL 20 SLAY-screened peptide P1013 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACTCGCCATTCGCACGTTAAGACTTGCTTCTATACTGGCGTCCCTCTTCACCCCCTCTAA TTRHSHVKTCFYTGVPLHPL* -2.208 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22664 TVLLPCGPFHVLY 13 SLAY-screened peptide P1014 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTTCTCCTTCCGTGCGGCCCTTTTCACGTTTTGTATTAGCATCCGGATGAGAATCTCTAA TVLLPCGPFHVLY*HPDENL* -2.207 0.000054 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22665 CYSSLLLRFWLFVKALSAQF 20 SLAY-screened peptide P1015 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTATTCGTCTCTGCTTCTCCGCTTTTGGCTTTTCGTTAAGGCGCTGAGTGCCCAGTTTTAA CYSSLLLRFWLFVKALSAQF* -2.206 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22666 RPSFPGLHLPVVVSRLSCSIN 21 SLAY-screened peptide P1016 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCGTCTTTCCCTGGGTTGCATCTTCCTGTTGTCGTAAGCCGCCTGTCCTGCAGTATTAAC RPSFPGLHLPVVVSRLSCSIN -2.206 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22667 PPCLSYSATRRRYCCLPQIT 20 SLAY-screened peptide P1017 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCGTGTCTCAGTTATTCTGCTACCCGTCGGCGGTATTGCTGTTTGCCTCAGATCACTTAA PPCLSYSATRRRYCCLPQIT* -2.205 0.001147 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22668 NDFDATHLRSDRKNITYWLL 20 SLAY-screened peptide P1018 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGACTTTGATGCTACCCACCTCAGGAGTGATAGGAAGAATATTACCTACTGGCTTCTGTAA NDFDATHLRSDRKNITYWLL* -2.2 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22669 IGPLSCTPLLFIAWNSESVS 20 SLAY-screened peptide P1019 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGGCCCGCTTAGTTGTACTCCCCTCCTTTTTATCGCTTGGAACAGTGAGTCCGTTTCGTAA IGPLSCTPLLFIAWNSESVS* -2.2 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22670 NCRSVLVYYGTPGTRSYHCY 20 SLAY-screened peptide P1020 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTGCCGCAGTGTCCTTGTGTATTACGGCACTCCTGGTACTCGTAGTTATCATTGCTATTAA NCRSVLVYYGTPGTRSYHCY* -2.197 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22671 AYCVASAALAHLYVWTMTIP 20 SLAY-screened peptide P1021 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTACTGCGTGGCGTCCGCGGCCCTCGCCCACCTTTATGTCTGGACTATGACTATCCCGTAA AYCVASAALAHLYVWTMTIP* -2.197 0.003325 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22672 IDSPAYVTLCVPRRRKQAYN 20 SLAY-screened peptide P1022 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGACAGTCCCGCCTACGTCACCCTTTGCGTTCCGCGGAGGAGGAAGCAGGCTTACAACTAA IDSPAYVTLCVPRRRKQAYN* -2.196 0.000504 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22673 TVQINSADPYCI 12 SLAY-screened peptide P1023 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGTTCAGATCAATAGTGCCGACCCCTATTGCATCTAGGATGATCTGCATCATTCTGACTAA TVQINSADPYCI*DDLHHSD* -2.196 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22674 LLS 3 SLAY-screened peptide P1024 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTCTCGTAGCTGATCTTTGGTGTGAGTGGTCACGCCGCGGCTAACGGCTTCGATTCCTAA LLS*LIFGVSGHAAANGFDS* -2.196 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22675 TSATTCVYYRPRRHYCSMAS 20 SLAY-screened peptide P1025 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAGCGCCACGACTTGCGTTTATTATCGGCCGCGCAGGCACTATTGTTCGATGGCGTCCTAA TSATTCVYYRPRRHYCSMAS* -2.196 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22676 HNFGQDLAYFHQAYFNGGGG 20 SLAY-screened peptide P1026 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAACTTTGGGCAGGACTTGGCCTATTTTCATCAGGCTTATTTCAATGGCGGTGGTGGCTAA HNFGQDLAYFHQAYFNGGGG* -2.195 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22677 HGLRLPAGGTDVCDRHAPRT 20 SLAY-screened peptide P1027 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGGCCTGCGCCTGCCGGCGGGTGGGACCGATGTCTGTGACCGTCATGCTCCTCGTACGTAA HGLRLPAGGTDVCDRHAPRT* -2.195 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22678 HGFSLHFTLLDSSIYVSILN 20 SLAY-screened peptide P1028 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGGGTTCTCGCTCCATTTTACCCTTTTGGATAGCTCTATCTACGTTAGTATCCTTAATTAA HGFSLHFTLLDSSIYVSILN* -2.194 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22679 PPFDVKDVPGLLVP 14 SLAY-screened peptide P1029 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTTTCGACGTTAAGGACGTTCCGGGCCTCTTGGTCCCTTAGCGTTAGTTCTTGCACTAA PPFDVKDVPGLLVP*R*FLH* -2.194 0.00015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22680 SHKTDQSTDDGVRDTRYSNS 20 SLAY-screened peptide P1030 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCACAAGACTGACCAGTCGACGGACGATGGTGTCAGGGATACTCGTTATTCGAATAGTTAA SHKTDQSTDDGVRDTRYSNS* -2.193 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22681 PGQLSIYLRMYRIKRTRCRV 20 SLAY-screened peptide P1031 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGGTCAGCTTTCCATCTACCTTCGCATGTATCGCATTAAGCGCACGCGCTGCCGGGTCTAA PGQLSIYLRMYRIKRTRCRV* -2.193 0.000593 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22682 PEFSLSNNSPCSTINALERL 20 SLAY-screened peptide P1032 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGAGTTTAGCCTTAGCAATAATAGCCCGTGCAGTACGATTAATGCGCTGGAGAGGTTGTAA PEFSLSNNSPCSTINALERL* -2.192 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22683 QFATFARASLIPNLPRVGPL 20 SLAY-screened peptide P1033 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTTCGCCACCTTCGCGCGGGCCTCCCTGATCCCTAATCTTCCTAGGGTCGGTCCCCTTTAA QFATFARASLIPNLPRVGPL* -2.192 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22684 HRTNYMSKYHD 11 SLAY-screened peptide P1034 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCGTACTAATTATATGTCTAAGTATCATGATTAGATGGCCACGTAGCTTTTCATCTTGTGA HRTNYMSKYHD*MAT*LFIL* -2.192 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22685 HVHQ 4 SLAY-screened peptide P1035 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGTGCACCAGTAGGTCTCCACCTATACTAATATTACGAATTAGACCGGCTGTATGCAGTAA HVHQ*VSTYTNITN*TGCMQ* -2.191 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22686 NCTRRVNATITLAGLRMLIR 20 SLAY-screened peptide P1036 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGTACGCGGCGCGTGAATGCTACTATCACCCTGGCGGGCCTCCGGATGCTGATTCGTTAA NCTRRVNATITLAGLRMLIR* -2.189 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22687 LNNI 4 SLAY-screened peptide P1037 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAACAATATCTAGTACCCTGAGTGGCCCTGTAATATTCCCGTTCCGCGGCCGTCTAATTAA LNNI*YPEWPCNIPVPRPSN* -2.189 0.000041 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22688 DPCQGVAVSPPFPRIAIGRAN 21 SLAY-screened peptide P1038 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCGTGTCAGGGGGTTGCGGTGTCACCACCATTTCCGCGAATTGCAATTGGGAGGGCTAAC DPCQGVAVSPPFPRIAIGRAN -2.189 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22689 NFIRPADGHPSCVARFHDAI 20 SLAY-screened peptide P1039 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTTCATCCGTCCGGCCGATGGTCACCCGTCCTGTGTTGCCCGGTTTCATGACGCCATCTAA NFIRPADGHPSCVARFHDAI* -2.188 0.000323 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22690 LSVAPDRFVIQTLSLHTHQG 20 SLAY-screened peptide P1040 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCGGTTGCCCCCGATCGCTTTGTTATTCAGACGCTTAGCCTCCATACCCATCAGGGTTAA LSVAPDRFVIQTLSLHTHQG* -2.187 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22691 FNLILLRRLAAWRRKSYTPH 20 SLAY-screened peptide P1041 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAACTTGATTCTGCTGCGTCGTTTGGCCGCTTGGCGCAGGAAGTCGTATACGCCTCATTAA FNLILLRRLAAWRRKSYTPH* -2.187 0.0014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22692 PDPVNANTNRIMCLVYYNSM 20 SLAY-screened peptide P1042 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGACCCGGTCAACGCCAACACTAATCGTATTATGTGCCTTGTGTACTATAATTCTATGTAA PDPVNANTNRIMCLVYYNSM* -2.186 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22693 LAHPPPVPHNRWHSFTTYLL 20 SLAY-screened peptide P1043 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCCCATCCCCCTCCCGTTCCCCATAACCGGTGGCATTCTTTTACTACTTATCTCCTCTAA LAHPPPVPHNRWHSFTTYLL* -2.186 0.001717 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22694 RFLVHAFHPLNPPLTLVHNE 20 SLAY-screened peptide P1044 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTTCCTTGTTCATGCGTTTCATCCGCTTAATCCTCCTTTGACGCTGGTGCACAACGAGTAA RFLVHAFHPLNPPLTLVHNE* -2.186 0.000059 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22695 GSTCHSRHDNHILDHSFNSR 20 SLAY-screened peptide P1045 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGTCTACCTGCCACTCTCGCCATGATAATCATATCCTTGACCACAGCTTTAACTCCAGGTAA GSTCHSRHDNHILDHSFNSR* -2.186 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22696 CLDYVDTETCSPCFNRTVTSN 21 SLAY-screened peptide P1046 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTTGGATTACGTCGATACTGAGACCTGCAGTCCCTGTTTTAATAGAACAGTTACGAGTAAC CLDYVDTETCSPCFNRTVTSN -2.186 0.000408 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22697 HNLTYTFLSSCPWVYSVSYH 20 SLAY-screened peptide P1047 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAACCTTACGTATACCTTTCTCTCTTCGTGTCCTTGGGTATATAGCGTCTCGTATCACTAA HNLTYTFLSSCPWVYSVSYH* -2.185 0.002589 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22698 SPYKRLMLILIFIILISVRIN 21 SLAY-screened peptide P1048 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCCTACAAGAGACTGATGCTTATCCTAATATTTATCATACTAATCAGCGTGCGGATTAAC SPYKRLMLILIFIILISVRIN -2.184 0.000039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22699 YTGRFNGHNCKCGALCLDYI 20 SLAY-screened peptide P1049 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACGGGCCGTTTTAACGGCCACAACTGTAAGTGTGGTGCTCTTTGTCTTGATTACATTTAA YTGRFNGHNCKCGALCLDYI* -2.184 0.005556 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22700 AKRGTPLICFGLFTRMDRRL 20 SLAY-screened peptide P1050 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAAGCGCGGGACTCCTCTCATCTGTTTTGGGCTTTTTACTAGGATGGATAGGCGGTTGTAA AKRGTPLICFGLFTRMDRRL* -2.183 0.00005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22701 IGDNGYFFPSKHIRSNFPD 19 SLAY-screened peptide P1051 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGGGGACAACGGTTACTTTTTCCCTTCCAAGCATATCCGTAGTAATTTCCCTGACTAGTAA IGDNGYFFPSKHIRSNFPD** -2.183 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22702 TGQTHANAHRHNPYFSTLDV 20 SLAY-screened peptide P1052 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGGCCAGACCCACGCTAACGCTCACAGGCACAACCCCTACTTTTCCACCCTCGACGTGTAA TGQTHANAHRHNPYFSTLDV* -2.183 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22703 YSHAFMASFGHCAKSYYLVP 20 SLAY-screened peptide P1053 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTCCCATGCCTTCATGGCCTCGTTTGGCCATTGTGCTAAGAGTTACTATCTGGTCCCCTAA YSHAFMASFGHCAKSYYLVP* -2.183 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22704 QATSYARTTNFLPILLICGH 20 SLAY-screened peptide P1054 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGCTACCAGCTATGCGCGTACTACCAACTTTCTGCCCATCCTCCTCATTTGCGGCCATTAA QATSYARTTNFLPILLICGH* -2.182 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22705 PLTISSNYRNVVGESGSTSI 20 SLAY-screened peptide P1055 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTACTATTTCCTCCAATTATAGGAACGTTGTCGGGGAGTCTGGTAGTACTAGTATTTAA PLTISSNYRNVVGESGSTSI* -2.181 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22706 RGNSPQFLNSWPNRSASDIL 20 SLAY-screened peptide P1056 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGGTAATTCTCCCCAGTTTCTCAATTCGTGGCCGAATCGTTCGGCTAGTGACATCCTCTAA RGNSPQFLNSWPNRSASDIL* -2.18 0.00051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22707 NGQGTATPATYSNSGYNARC 20 SLAY-screened peptide P1057 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGGGCAGGGTACTGCTACGCCCGCGACTTACTCTAACTCTGGTTATAATGCTCGCTGCTAA NGQGTATPATYSNSGYNARC* -2.18 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22708 PTLLNNPQTGQSTNTSHEWQ 20 SLAY-screened peptide P1058 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACTCTGCTTAACAACCCTCAGACCGGTCAGAGCACTAATACTTCTCATGAGTGGCAGTAA PTLLNNPQTGQSTNTSHEWQ* -2.18 0.000847 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22709 MLYPIWQPINILMA 14 SLAY-screened peptide P1059 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTTGTACCCCATCTGGCAGCCGATCAATATTCTCATGGCTTAGTAGTCTCTTAGGTATTAA MLYPIWQPINILMA**SLRY* -2.179 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22710 SALANLAQPLTTLSMIRTRAN 21 SLAY-screened peptide P1060 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCTCTCGCGAATCTGGCTCAGCCTCTTACTACGTTGTCCATGATACGAACCAGAGCTAAC SALANLAQPLTTLSMIRTRAN -2.179 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22711 SNATAINSLAYYLFDISVAA 20 SLAY-screened peptide P1061 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAACGCCACGGCCATCAATTCCCTGGCGTATTATCTCTTTGATATTAGCGTGGCCGCTTAA SNATAINSLAYYLFDISVAA* -2.179 0.000015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22712 MHPWSNAHTLATDSSSADSH 20 SLAY-screened peptide P1062 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCACCCCTGGTCTAACGCTCATACGCTTGCGACGGACAGTTCCTCTGCTGATTCTCATTAA MHPWSNAHTLATDSSSADSH* -2.179 0.001379 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22713 IYCIVFPRLYDNCSIVGMSCN 21 SLAY-screened peptide P1063 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTACTGTATCGTGTTCCCTCGCTTGTACGATAACTGTTCTATCGTCGGCATGTCTTGTAAC IYCIVFPRLYDNCSIVGMSCN -2.178 0.000492 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22714 CYRIPLC 7 SLAY-screened peptide P1064 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTATCGTATCCCTCTGTGCTAGACTACGTCTGACTCGTATAATGGCTCCTCCTCGCCTTAA CYRIPLC*TTSDSYNGSSSP* -2.178 0.000362 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22715 LGREMFFSRYNGNHSRHTSS 20 SLAY-screened peptide P1065 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGGCAGGGAGATGTTTTTTTCCCGTTACAATGGCAATCACTCCCGGCATACCTCTTCCTAA LGREMFFSRYNGNHSRHTSS* -2.178 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22716 ICSRNMHMYRRIFNDYMFCD 20 SLAY-screened peptide P1066 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTGCTCGCGCAACATGCATATGTACCGCCGTATCTTCAATGATTACATGTTCTGTGATTAA ICSRNMHMYRRIFNDYMFCD* -2.177 0.000903 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22717 RSDHLPVRPIPSHILVTEDY 20 SLAY-screened peptide P1067 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAGCGATCACTTGCCTGTGCGCCCGATTCCTAGCCATATTTTGGTTACTGAGGACTATTAA RSDHLPVRPIPSHILVTEDY* -2.177 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22718 KHRLYTITLLDIPTSYNTLY 20 SLAY-screened peptide P1068 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCATCGTCTTTATACTATCACTCTGCTCGACATCCCGACGAGCTATAATACCCTCTACTAA KHRLYTITLLDIPTSYNTLY* -2.177 0.00129 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22719 CYPLSRSVCYFVTTYFLFSF 20 SLAY-screened peptide P1069 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTATCCTCTTTCTCGTTCTGTGTGCTATTTTGTCACCACCTATTTCCTCTTCAGTTTCTAA CYPLSRSVCYFVTTYFLFSF* -2.176 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22720 YGYDHSLPHRYYRALPVTLL 20 SLAY-screened peptide P1070 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGGCTATGACCACAGCCTCCCCCACCGGTACTACCGTGCCCTTCCGGTTACGCTCCTCTAA YGYDHSLPHRYYRALPVTLL* -2.176 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22721 GWPDSNLTMRNQSRIYCGT 19 SLAY-screened peptide P1071 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGTGGCCCGACAGTAATCTCACTATGCGTAACCAGAGCCGTATCTACTGTGGCACTTAACTG GWPDSNLTMRNQSRIYCGT*L -2.176 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22722 QTNYTVTSFSLVLTTMVMWH 20 SLAY-screened peptide P1072 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGACCAATTACACTGTCACGTCGTTTAGCCTTGTTCTCACCACGATGGTCATGTGGCACTAA QTNYTVTSFSLVLTTMVMWH* -2.175 0.00005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22723 AGPENAAAPANFVDISLYAC 20 SLAY-screened peptide P1073 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGGGCCTGAGAATGCTGCTGCGCCGGCCAATTTTGTTGATATCTCTTTGTATGCTTGTTAA AGPENAAAPANFVDISLYAC* -2.174 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22724 TRIRIFGVCAFPATS 15 SLAY-screened peptide P1074 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCGTATTAGGATTTTTGGGGTTTGCGCGTTCCCGGCTACTAGTTAGGCGTCTCTTGCCTAA TRIRIFGVCAFPATS*ASLA* -2.173 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22725 RDFAYTPGNPFNPGLNSPRR 20 SLAY-screened peptide P1075 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGATTTTGCTTACACGCCCGGCAATCCTTTTAACCCCGGGCTCAACAGCCCTCGTCGTTAA RDFAYTPGNPFNPGLNSPRR* -2.172 0.003904 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22726 HNLCSIDNFYTIPSV 15 SLAY-screened peptide P1076 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAATCTCTGTTCCATTGATAATTTTTATACGATCCCTTCCGTCTAGGGGGGGCACTGTTAA HNLCSIDNFYTIPSV*GGHC* -2.172 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22727 HCDTTIKACSRYALR 15 SLAY-screened peptide P1077 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGTGATACGACGATTAAGGCTTGTAGTCGTTATGCTCTTCGTTAGGACCTGTTTGTCTAA HCDTTIKACSRYALR*DLFV* -2.171 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22728 NNILFTRFFPNDHGPRVGYH 20 SLAY-screened peptide P1078 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATAACATCCTCTTTACTCGTTTCTTTCCTAATGATCACGGGCCCAGGGTCGGCTACCACTAA NNILFTRFFPNDHGPRVGYH* -2.171 0.003973 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22729 AATVSNCLGLYYLSHNDTSFN 21 SLAY-screened peptide P1079 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGCTACTGTGTCTAATTGTCTGGGCCTTTACTATCTGAGTCACAATGACACTTCCTTTAAC AATVSNCLGLYYLSHNDTSFN -2.17 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22730 SFSGLCEDTETILKRRTT 18 SLAY-screened peptide P1080 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTTCTCTGGCCTTTGCGAGGACACGGAGACTATTCTCAAGAGGCGCACCACTTAGAATTAA SFSGLCEDTETILKRRTT*N* -2.17 0.000319 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22731 NRACSTPTSFCSVPQVPNTY 20 SLAY-screened peptide P1081 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAGGGCCTGTAGCACCCCTACCAGCTTCTGCTCGGTCCCGCAGGTTCCGAACACTTATTAA NRACSTPTSFCSVPQVPNTY* -2.17 0.000344 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22732 CPREPRHDTVLLHHFTCRAH 20 SLAY-screened peptide P1082 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCCAGGGAGCCTAGGCATGATACGGTTTTGCTTCACCATTTCACCTGCAGGGCCCATTAA CPREPRHDTVLLHHFTCRAH* -2.17 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22733 PPLASCLAMRGFTITVPQLT 20 SLAY-screened peptide P1083 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCCCTGGCCTCGTGCCTCGCCATGCGTGGCTTTACTATTACTGTTCCGCAGTTGACCTAA PPLASCLAMRGFTITVPQLT* -2.169 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22734 AIFLVLFLFGHKSLFLIYRR 20 SLAY-screened peptide P1084 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCATCTTCCTTGTTTTGTTCCTGTTCGGCCATAAGAGCCTTTTCCTTATTTACCGGCGGTAA AIFLVLFLFGHKSLFLIYRR* -2.169 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22735 FSKEMMKSVHSMAQNALIVS 20 SLAY-screened peptide P1085 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTCGAAGGAGATGATGAAGAGTGTCCATTCCATGGCCCAGAATGCCCTGATTGTTAGCTAA FSKEMMKSVHSMAQNALIVS* -2.168 0.00015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22736 GLPYDLPDVPNVH 13 SLAY-screened peptide P1086 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCTGCCCTACGATTTGCCTGACGTTCCGAATGTGCATTAGGCGCGCGGTGTTCGCACCTAA GLPYDLPDVPNVH*ARGVRT* -2.167 0.000174 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22737 RDTRCLPTHLLNSSHDPCTA 20 SLAY-screened peptide P1087 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGACACCCGTTGCTTGCCCACCCACCTTTTGAACAGTTCGCACGATCCTTGCACCGCGTAA RDTRCLPTHLLNSSHDPCTA* -2.166 0.000103 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22738 SRASYSNSHGTRHSHCTSSY 20 SLAY-screened peptide P1088 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCGTGCTTCTTACTCTAACTCCCATGGTACCAGGCATTCTCATTGCACCAGTTCCTACTAA SRASYSNSHGTRHSHCTSSY* -2.165 0.000043 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22739 DPLRPNNPTSRFAVYSAIGT 20 SLAY-screened peptide P1089 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCGCTTCGGCCTAATAATCCGACGTCTCGTTTTGCCGTGTACAGTGCTATTGGCACCTAA DPLRPNNPTSRFAVYSAIGT* -2.164 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22740 QYYVLHRRRLSY 12 SLAY-screened peptide P1090 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTACTATGTACTCCATCGACGTCGATTATCATATTGATGCCTAACTGAGTAAGTCGACCTG QYYVLHRRRLSY*CLTE*VDL -2.163 0.002885 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22741 AN 2 SLAY-screened peptide P1091 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTAATTAGCGCAACGCTTACCCTGAGGTCGTCTACCATATTAACCCCTTTACGCAGCAGTAA AN*RNAYPEVVYHINPFTQQ* -2.162 0.00002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22742 CDRVSTCAAVGLLYFCKRFA 20 SLAY-screened peptide P1092 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGACAGGGTCTCCACCTGCGCGGCCGTCGGGCTTCTCTACTTTTGTAAGCGTTTTGCTTAA CDRVSTCAAVGLLYFCKRFA* -2.162 0.000019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22743 YRVRGPEKRTHVVLVSC 17 SLAY-screened peptide P1093 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCGTGTGAGGGGTCCTGAGAAGAGGACGCATGTTGTCCTTGTCTCGTGCTAGTATCCCTAA YRVRGPEKRTHVVLVSC*YP* -2.162 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22744 PCTYFDSLTRWFMLDAYPNL 20 SLAY-screened peptide P1094 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTACGTACTTCGATAGTCTCACTCGTTGGTTCATGTTGGATGCTTACCCTAACTTGTAA PCTYFDSLTRWFMLDAYPNL* -2.162 0.003911 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22745 RY 2 SLAY-screened peptide P1095 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTACTAGGGCCCGATTTATTTCTGCGAGTGCCGTTCTAATTTCTGTCACTATTCGTCTTAA RY*GPIYFCECRSNFCHYSS* -2.161 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22746 PRSSDNQCQILHCNSLYNNY 20 SLAY-screened peptide P1096 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGCTCGTCCGACAATCAGTGCCAGATTCTTCACTGTAATAGCCTGTACAATAATTATTAA PRSSDNQCQILHCNSLYNNY* -2.161 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22747 FPYNPRCYWPSYHPVDNYSV 20 SLAY-screened peptide P1097 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCCTTACAATCCTAGGTGTTATTGGCCCTCCTACCACCCTGTTGATAATTATAGCGTTTAA FPYNPRCYWPSYHPVDNYSV* -2.16 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22748 TPPSPSNTPKYVQVTMAYHL 20 SLAY-screened peptide P1098 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCCGCCCAGCCCGAGTAATACTCCCAAGTACGTGCAGGTTACTATGGCCTACCATCTCTAA TPPSPSNTPKYVQVTMAYHL* -2.159 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22749 WPSNLVRRFFQPTMLHHSAV 20 SLAY-screened peptide P1099 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCCTCCAACTTGGTGCGCAGGTTCTTTCAGCCCACTATGCTCCATCACTCGGCCGTGTAA WPSNLVRRFFQPTMLHHSAV* -2.159 0.00003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22750 AHEQVVNSNCPNNDLPCP 18 SLAY-screened peptide P1100 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCATGAGCAGGTGGTCAATTCCAATTGCCCCAATAATGACCTTCCGTGCCCTTAGGTCTAA AHEQVVNSNCPNNDLPCP*V* -2.159 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22751 ASSSHPILAFNTTLDRINDL 20 SLAY-screened peptide P1101 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAGCAGTAGTCACCCTATCCTGGCTTTTAATACTACCCTGGATCGGATCAATGACCTCTAA ASSSHPILAFNTTLDRINDL* -2.158 0.000042 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22752 LPPVPLLFLRHFRVCYSHLP 20 SLAY-screened peptide P1102 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCCCCCGTGCCGTTGCTCTTCCTTCGCCACTTCCGCGTCTGTTACTCTCATCTTCCCTAA LPPVPLLFLRHFRVCYSHLP* -2.156 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22753 PGSLNAAGGLLSVTTYPYDY 20 SLAY-screened peptide P1103 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGGGTCGCTCAATGCCGCCGGTGGGCTCCTCTCTGTCACTACTTATCCGTACGATTATTAA PGSLNAAGGLLSVTTYPYDY* -2.155 0.000391 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22754 PLGTPPRFHLRISTLIRSTG 20 SLAY-screened peptide P1104 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTGGGACCCCTCCCCGGTTTCATCTGCGGATCTCCACGCTCATCAGGTCCACTGGCTAA PLGTPPRFHLRISTLIRSTG* -2.154 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22755 PSPWGGSSLAL 11 SLAY-screened peptide P1105 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCCCCCTGGGGCGGGAGCTCCCTCGCTCTGTAGCCGTAGAGTCATCAGACTGCTTTGTAA PSPWGGSSLAL*P*SHQTAL* -2.153 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22756 LPHTE 5 SLAY-screened peptide P1106 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCCCATACCGAGTAGAGTGCTCGTTTGACGCGGGATGTGTTTGCCTACGGTATTGCCTAA LPHTE*SARLTRDVFAYGIA* -2.153 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22757 ERHPFHVHVFRFWAMNSRLR 20 SLAY-screened peptide P1107 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAGGCACCCTTTTCATGTTCACGTTTTCCGTTTCTGGGCTATGAATAGCAGGCTCCGTTAA ERHPFHVHVFRFWAMNSRLR* -2.153 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22758 CLVLSTCCPNEHRSY 15 SLAY-screened peptide P1108 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCGTTCTGAGCACCTGTTGCCCCAACGAGCACCGTTCTTATTAGCAGTTGAACCTGTAA CLVLSTCCPNEHRSY*QLNL* -2.152 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22759 FARAVVSEHAHYHCYQNIAP 20 SLAY-screened peptide P1109 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGCTCGCGCCGTCGTTTCGGAGCATGCCCATTATCACTGTTATCAGAATATTGCGCCCTAA FARAVVSEHAHYHCYQNIAP* -2.152 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22760 PWNTNLH 7 SLAY-screened peptide P1110 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGGAATACTAATCTTCATTAGCATTGTACCTGCTCTAGCAATATCCCTCAGGATCACTAA PWNTNLH*HCTCSSNIPQDH* -2.152 0.002013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22761 HPDYLLAGNRTKSPKDNAQR 20 SLAY-screened peptide P1111 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTGATTACCTCTTGGCGGGTAACCGTACTAAGTCCCCCAAGGACAACGCCCAGCGTTAA HPDYLLAGNRTKSPKDNAQR* -2.152 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22762 IRDNIPTACSHCTNGTDQVT 20 SLAY-screened peptide P1112 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCGCGATAATATCCCGACCGCGTGTTCGCATTGCACTAATGGTACGGATCAGGTCACCTAA IRDNIPTACSHCTNGTDQVT* -2.151 0.000784 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22763 PNGFNTPSFTIRSVYRLVFA 20 SLAY-screened peptide P1113 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAACGGGTTCAATACCCCCAGTTTTACTATTCGTTCCGTTTATAGGCTGGTCTTTGCTTAA PNGFNTPSFTIRSVYRLVFA* -2.151 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22764 LLHVPTPLLMQKLLFRHLYH 20 SLAY-screened peptide P1114 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTCCATGTGCCCACCCCCCTTCTTATGCAGAAGCTCTTGTTTAGGCATCTCTATCACTAA LLHVPTPLLMQKLLFRHLYH* -2.151 0.000555 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22765 DLLDAGSHH 9 SLAY-screened peptide P1115 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTTGCTCGACGCTGGGTCCCATCACTAGCACCTTGGGTACAGCTTGACTTGGTCTTTTTAA DLLDAGSHH*HLGYSLTWSF* -2.15 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22766 AQSFAFLFLRKMALEPRQLI 20 SLAY-screened peptide P1116 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCAGTCTTTTGCGTTTCTGTTTCTCCGCAAGATGGCTCTGGAGCCGCGGCAGCTTATCTAA AQSFAFLFLRKMALEPRQLI* -2.15 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22767 ATIYKWPLDHYTHANSSNYR 20 SLAY-screened peptide P1117 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTACCATTTATAAGTGGCCTTTGGACCATTACACGCATGCTAATTCTTCGAATTATAGGTAA ATIYKWPLDHYTHANSSNYR* -2.149 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22768 CGFGLPSFRCTDHFRYVIYD 20 SLAY-screened peptide P1118 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGGCTTTGGGCTCCCCTCCTTTAGGTGCACGGACCACTTCCGCTATGTGATTTACGATTAA CGFGLPSFRCTDHFRYVIYD* -2.149 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22769 RTPPDSPFAILIFWRRSRCVN 21 SLAY-screened peptide P1119 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGACCCCTCCGGATTCTCCGTTTGCCATACTGATATTCTGGCGTCGCAGCAGATGCGTTAAC RTPPDSPFAILIFWRRSRCVN -2.149 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22770 YSDIVKFNMLKDPQSDSVAS 20 SLAY-screened peptide P1120 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTCCGATATTGTGAAGTTTAATATGCTTAAGGACCCCCAGAGCGACTCCGTCGCCTCCTAA YSDIVKFNMLKDPQSDSVAS* -2.148 0.000506 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22771 NTLDYNYPLIHLRDYVKTLC 20 SLAY-screened peptide P1121 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACCCTGGATTATAATTACCCGTTGATTCATCTGCGCGATTACGTTAAGACGCTTTGTTAA NTLDYNYPLIHLRDYVKTLC* -2.148 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22772 NLLSQVYAPRPLGLLSRLKS 20 SLAY-screened peptide P1122 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCTGCTTTCCCAGGTTTATGCTCCTCGGCCTCTTGGCTTGCTCAGCCGTCTTAAGTCTTAA NLLSQVYAPRPLGLLSRLKS* -2.147 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22773 MYSNSLRTCAYSDTHSASVD 20 SLAY-screened peptide P1123 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTACTCTAATTCTCTCCGGACGTGTGCCTATAGCGATACTCACAGTGCCAGCGTGGACTAA MYSNSLRTCAYSDTHSASVD* -2.147 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22774 PAPYRTYAHLSGRCLNQYTR 20 SLAY-screened peptide P1124 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCCCCCTATCGTACCTACGCTCACTTGTCGGGTCGTTGTTTGAACCAGTATACTCGCTAA PAPYRTYAHLSGRCLNQYTR* -2.147 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22775 CDYTLPTTAPTRPPSAPTWR 20 SLAY-screened peptide P1125 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGACTATACGCTTCCCACTACTGCTCCGACCCGTCCGCCCTCGGCGCCTACTTGGCGCTAA CDYTLPTTAPTRPPSAPTWR* -2.146 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22776 ASSTRHGSEPHGSIHSPYCY 20 SLAY-screened peptide P1126 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTAGCTCTACCAGGCATGGGTCCGAGCCCCACGGGAGTATCCATAGTCCTTATTGTTATTAA ASSTRHGSEPHGSIHSPYCY* -2.146 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22777 GEGELIRVSKHCHLDAIMSG 20 SLAY-screened peptide P1127 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGGAGGGGGAGCTCATCAGGGTCTCTAAGCACTGTCATCTTGATGCTATCATGTCCGGCTAA GEGELIRVSKHCHLDAIMSG* -2.146 0.00014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22778 HRRCASVSLAPRNALPTDHL 20 SLAY-screened peptide P1128 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGCCGCTGCGCCTCGGTCTCGCTCGCCCCGCGGAACGCCCTGCCGACTGATCACTTGTAA HRRCASVSLAPRNALPTDHL* -2.146 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22779 SIKFRSTRYLVRGVSTLFDF 20 SLAY-screened peptide P1129 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCATTAAGTTTCGGAGTACCCGTTATCTCGTTCGCGGTGTCAGCACCTTGTTTGACTTTTAA SIKFRSTRYLVRGVSTLFDF* -2.144 0.00002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22780 TLIYITWTSSPRLMNIITAN 20 SLAY-screened peptide P1130 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCTGATCTATATTACTTGGACCTCGTCCCCTCGTTTGATGAACATTATTACCGCGAATTAA TLIYITWTSSPRLMNIITAN* -2.144 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22781 GFAHYLL 7 SLAY-screened peptide P1131 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTTCGCGCACTACCTCCTCTAGTGTCTTCACCACGACTATGGCGACGCGAATAACGATTAA GFAHYLL*CLHHDYGDANND* -2.143 0.00019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22782 LGPAFVGRHPRCPQFFDWSR 20 SLAY-screened peptide P1132 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGGGCCCGCCTTTGTGGGTCGTCATCCGCGTTGTCCGCAGTTTTTTGATTGGTCTCGCTAA LGPAFVGRHPRCPQFFDWSR* -2.143 0.000636 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22783 PPTACFAEPLSNYSFPYVLL 20 SLAY-screened peptide P1133 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCGACTGCCTGCTTCGCGGAGCCGCTTTCCAACTATTCCTTCCCTTATGTGCTGCTCTAA PPTACFAEPLSNYSFPYVLL* -2.143 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22784 PRTVFVI 7 SLAY-screened peptide P1134 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTACTGTCTTTGTCATCTAGCTCATTGTGCCGGATCATAATATTGATGGTAATACGTAA PRTVFVI*LIVPDHNIDGNT* -2.142 0.003074 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22785 GAYAFHHWLFSYLVYMRRMN 20 SLAY-screened peptide P1135 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGGCGTATGCTTTTCACCACTGGCTCTTTAGCTACTTGGTCTATATGAGGAGGATGAACTAA GAYAFHHWLFSYLVYMRRMN* -2.142 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22786 HFVPVYSNLFFLTFPRVIDT 20 SLAY-screened peptide P1136 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTTTGTTCCGGTTTATTCCAACCTTTTCTTCCTTACTTTCCCTAGGGTTATTGATACCTAA HFVPVYSNLFFLTFPRVIDT* -2.14 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22787 PSAELCMPNAFPGLPNGSSP 20 SLAY-screened peptide P1137 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCTGCGGAGCTTTGCATGCCCAATGCTTTCCCTGGTCTCCCTAACGGCTCTAGTCCGTAA PSAELCMPNAFPGLPNGSSP* -2.139 0.001087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22788 STLVLIRTCHSAISTYYCPS 20 SLAY-screened peptide P1138 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACCCTGGTCCTTATTAGGACCTGCCATTCGGCTATCTCTACTTACTATTGTCCCTCCTAA STLVLIRTCHSAISTYYCPS* -2.138 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22789 THECTLTLVQHDI 13 SLAY-screened peptide P1139 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCACGAGTGCACCCTCACGCTCGTGCAGCACGATATCTAGGCGAGTCAGCTGATCACGTAA THECTLTLVQHDI*ASQLIT* -2.138 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22790 WLVPSRRLSAYCVLIFSRSD 20 SLAY-screened peptide P1140 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCTTGTCCCGAGTCGCCGGCTGTCGGCGTATTGCGTTCTTATTTTTTCTCGTTCTGATTAA WLVPSRRLSAYCVLIFSRSD* -2.137 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22791 TCAVASRIRSSYKYCTNTTH 20 SLAY-screened peptide P1141 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTGTGCGGTTGCGTCGCGTATTCGCTCTTCGTATAAGTACTGTACGAACACCACCCATTAA TCAVASRIRSSYKYCTNTTH* -2.137 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22792 RSYTEETYLSYFVYTNRCDRY 21 SLAY-screened peptide P1142 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCCTACACGGAGGAGACTTACCTCTCTTACTTTGTTTATACGAACCGGTGCGATCGGTAC RSYTEETYLSYFVYTNRCDRY -2.137 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22793 FTSQALSADISDDTCWAHAQ 20 SLAY-screened peptide P1143 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTACTTCTCAGGCGCTTTCCGCCGACATCAGTGACGATACCTGTTGGGCGCATGCCCAGTAA FTSQALSADISDDTCWAHAQ* -2.137 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22794 TPCNFSHQSCHGLSTGLLTD 20 SLAY-screened peptide P1144 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCCGTGTAACTTCAGCCACCAGTCTTGCCACGGCCTTTCTACTGGCCTGCTTACTGATTAA TPCNFSHQSCHGLSTGLLTD* -2.136 0.001118 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22795 ASPHFCPGSRHSAIPPYMLL 20 SLAY-screened peptide P1145 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTCCCCTCATTTCTGTCCTGGTTCGAGGCACTCTGCTATTCCGCCCTACATGTTGCTTTAA ASPHFCPGSRHSAIPPYMLL* -2.136 0.000015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22796 SGWFS 5 SLAY-screened peptide P1146 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGGCTGGTTTAGTTAGCAGCCCCGTGGCGCGTCGCTCAACGAGGCGAATTCTCTTACTTAA SGWFS*QPRGASLNEANSLT* -2.136 0.000744 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22797 TSSPLSLCSSSQALATPSAN 20 SLAY-screened peptide P1147 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCTTCTCCTTTGTCGCTGTGTTCCAGTAGTCAGGCCTTGGCGACTCCTTCGGCGAACTAA TSSPLSLCSSSQALATPSAN* -2.136 0.000094 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22798 CI 2 SLAY-screened peptide P1148 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTATCTAGCCTCATCTTGAGCGCCAGCATAAGTGCTTCTCCCGTCATATTATGATGCATTAA CI*PHLERQHKCFSRHIMMH* -2.135 0.000173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22799 WPPCGSHCLF 10 SLAY-screened peptide P1149 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCCCCTTGTGGCAGTCACTGTTTGTTCTAGAGTTATTCTGATAACGATCCTGACGCGTAA WPPCGSHCLF*SYSDNDPDA* -2.135 0.000535 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22800 RVHKLLPLHSGLSSDSM 17 SLAY-screened peptide P1150 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGTCCATAAGCTGTTGCCGCTCCACAGTGGCCTGTCCAGTGACTCCATGTAGCAGTTCTAA RVHKLLPLHSGLSSDSM*QF* -2.135 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22801 LAAPNQTTEGRDIPNWAHPT 20 SLAY-screened peptide P1151 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGCCGCCCCGAACCAGACTACGGAGGGCCGTGATATCCCGAACTGGGCTCATCCCACTTAA LAAPNQTTEGRDIPNWAHPT* -2.135 0.00384 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22802 AALGSWNSTTYSPLVTPMNR 20 SLAY-screened peptide P1152 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCTCTTGGTTCTTGGAACTCTACGACGTATTCTCCTCTGGTTACTCCTATGAATCGCTAA AALGSWNSTTYSPLVTPMNR* -2.134 0.00026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22803 LCSPLYDTF 9 SLAY-screened peptide P1153 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGTAGTCCTCTTTATGACACGTTTTAGGCCATTTTTTAGGCGTTTAACACCGCCGATTAA LCSPLYDTF*AIF*AFNTAD* -2.133 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22804 DNSFGDRCGHYSYHVCISSA 20 SLAY-screened peptide P1154 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATAATTCGTTTGGCGACAGGTGCGGCCATTATAGCTATCATGTGTGTATCTCTTCGGCGTAA DNSFGDRCGHYSYHVCISSA* -2.132 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22805 CLYSHIGVPPSLPTDFYYSR 20 SLAY-screened peptide P1155 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTTGTATTCTCATATTGGCGTGCCGCCCTCGCTTCCGACGGATTTCTACTATAGCAGGTAA CLYSHIGVPPSLPTDFYYSR* -2.132 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22806 LIFYFLRVWPDLPYYCTDSD 20 SLAY-screened peptide P1156 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGATTTTCTACTTTCTGAGGGTCTGGCCTGACCTGCCCTATTACTGTACCGACTCCGATTAA LIFYFLRVWPDLPYYCTDSD* -2.131 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22807 HGIPYYRTVSISDTLAT 17 SLAY-screened peptide P1157 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGGTATCCCTTATTATCGGACTGTTAGCATTAGCGACACCTTGGCGACTTAGTGCTAAGTA HGIPYYRTVSISDTLAT*C*V -2.131 0.002641 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22808 PQNYL 5 SLAY-screened peptide P1158 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCAGAACTACCTGTAGGCTCCGCTTTCGCGCGCTGCTAACCATCACTCCTACACGTCTTAA PQNYL*APLSRAANHHSYTS* -2.131 0.000297 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22809 TGLIRWYQSCRHLPFRRLY 19 SLAY-screened peptide P1159 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGGCTGATTAGGTGGTACCAGTCGTGCCGGCACTTGCCGTTCAGGCGCTTGTACTAGTAA TGLIRWYQSCRHLPFRRLY** -2.13 0.000575 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22810 HLFILNKTHVDCRAH 15 SLAY-screened peptide P1160 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTTTTTATTCTTAATAAGACTCACGTCGATTGCAGGGCTCATTAGACTATGCACTGTTAA HLFILNKTHVDCRAH*TMHC* -2.129 0.000031 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22811 RVIRRSGGTI 10 SLAY-screened peptide P1161 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGTCATCCGGCGATCCGGAGGAACAATATGAATAAGTCTCATATTATCCAGGGCCTTTAAC RVIRRSGGTI*ISLILSRAFN -2.128 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22812 PELGPPPTIGPRF 13 SLAY-screened peptide P1162 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGAGCTTGGGCCTCCTCCGACTATTGGCCCTCGTTTCTAGAGCCTTTTGGCGCCCGCGTAA PELGPPPTIGPRF*SLLAPA* -2.128 0.000173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22813 FSTFHMRMYSPEYEPANYHP 20 SLAY-screened peptide P1163 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTCTACCTTTCATATGCGGATGTATTCGCCCGAGTATGAGCCTGCGAACTACCACCCGTAA FSTFHMRMYSPEYEPANYHP* -2.128 0.00104 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22814 YNGVLNGCTRRNIKP 15 SLAY-screened peptide P1164 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACAACGGCGTCCTGAATGGTTGCACCCGTAGGAACATCAAGCCTTAGAAGGCGGCCGCTTAA YNGVLNGCTRRNIKP*KAAA* -2.128 0.003781 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22815 LYLVAGAILRIYHCRLDGSY 20 SLAY-screened peptide P1165 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTATCTCGTGGCGGGTGCTATCCTTCGTATTTATCATTGCAGGCTGGACGGTAGTTATTAA LYLVAGAILRIYHCRLDGSY* -2.127 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22816 FPNPMDLSSPWYVLHGQKVP 20 SLAY-screened peptide P1166 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCCAATCCTATGGATTTGTCCTCCCCTTGGTATGTCCTCCACGGGCAGAAGGTGCCTTAA FPNPMDLSSPWYVLHGQKVP* -2.127 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22817 RLLLLLLLRSLYDPKARKPR 20 SLAY-screened peptide P1167 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTTGCTCTTGTTGCTTCTTCTGCGTAGTCTCTATGACCCCAAGGCTCGTAAGCCTCGTTAA RLLLLLLLRSLYDPKARKPR* -2.127 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22818 NCGYRTPAPGTSRPA 15 SLAY-screened peptide P1168 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGCGGGTATCGCACTCCGGCTCCGGGCACTTCCCGTCCGGCTTAGGCGCGCCATCTGTAA NCGYRTPAPGTSRPA*ARHL* -2.126 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22819 SSTRSARAQDPMALSHTHTG 20 SLAY-screened peptide P1169 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCGACTAGGTCGGCCCGGGCCCAGGATCCTATGGCTTTGAGCCATACCCATACTGGCTAA SSTRSARAQDPMALSHTHTG* -2.126 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22820 LPSSDCYITPDSATFLIINI 20 SLAY-screened peptide P1170 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCTAGCTCTGACTGTTACATTACGCCTGATTCCGCTACTTTTCTGATTATCAATATTTAA LPSSDCYITPDSATFLIINI* -2.125 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22821 DYNAFSEETKVYCIYLIHNT 20 SLAY-screened peptide P1171 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTACAACGCTTTCTCCGAGGAGACGAAGGTGTATTGTATTTACCTTATCCACAATACTTAA DYNAFSEETKVYCIYLIHNT* -2.124 0.000804 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22822 HYDWWNVPCHSRYSPSYVLL 20 SLAY-screened peptide P1172 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTACGACTGGTGGAATGTTCCGTGTCATTCTCGTTATTCCCCGAGTTACGTTCTGCTCTAA HYDWWNVPCHSRYSPSYVLL* -2.124 0.000998 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22823 IDLWSFHINGNLASTAASISN 21 SLAY-screened peptide P1173 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGATCTTTGGAGCTTTCACATTAACGGCAACCTTGCGTCCACCGCCGCATCCATATCTAAC IDLWSFHINGNLASTAASISN -2.123 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22824 NADCTRHSIRNDQC 14 SLAY-screened peptide P1174 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGCGGACTGCACGCGTCATAGCATCCGCAATGACCAGTGCTAGAATGCCTAGGGTATTTAA NADCTRHSIRNDQC*NA*GI* -2.123 0.000031 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22825 AQHVIPCQIPYYLPITYVLR 20 SLAY-screened peptide P1175 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCAGCATGTGATCCCTTGCCAGATCCCGTACTATCTCCCGATTACGTATGTGCTCCGTTAA AQHVIPCQIPYYLPITYVLR* -2.123 0.000065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22826 STYYTLPNVPICPYSHWHPY 20 SLAY-screened peptide P1176 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCACGTATTATACGCTTCCCAACGTGCCTATCTGTCCGTATTCGCATTGGCATCCCTATTAA STYYTLPNVPICPYSHWHPY* -2.123 0.002088 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22827 LPAGYETRRVYLANSAGGTS 20 SLAY-screened peptide P1177 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCTGCGGGGTACGAGACTCGTCGGGTCTATTTGGCCAATAGTGCTGGTGGGACGTCCTAA LPAGYETRRVYLANSAGGTS* -2.122 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22828 NPRLDLTRSSSQFSVSPGRR 20 SLAY-screened peptide P1178 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCCCCGCCTTGATCTGACCCGGAGCTCTTCGCAGTTTTCGGTTTCCCCTGGTCGTAGGTAA NPRLDLTRSSSQFSVSPGRR* -2.122 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22829 HKGAYRVSSLIITTMKMSQR 20 SLAY-screened peptide P1179 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAAGGGCGCCTACCGTGTTAGTAGTCTCATCATCACTACTATGAAGATGTCGCAGCGCTAA HKGAYRVSSLIITTMKMSQR* -2.121 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22830 SLALPIFTFTTHIAPHVTHL 20 SLAY-screened peptide P1180 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCTCGCCCTCCCGATTTTCACGTTTACTACTCATATTGCGCCTCATGTCACGCATCTTTAA SLALPIFTFTTHIAPHVTHL* -2.12 0.002071 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22831 LQYVPLTRSRHTLDSENTAW 20 SLAY-screened peptide P1181 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCAGTATGTCCCCCTGACGCGCAGTCGGCATACGCTTGATTCCGAGAACACCGCTTGGTAA LQYVPLTRSRHTLDSENTAW* -2.118 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22832 PRRNPVRYVMSKIQVIFLRN 20 SLAY-screened peptide P1182 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGGCGGAACCCCGTGCGGTATGTTATGAGTAAGATTCAGGTCATCTTCCTCCGTAATTAA PRRNPVRYVMSKIQVIFLRN* -2.118 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22833 RAGCIPLPPVLVYPNIHPST 20 SLAY-screened peptide P1183 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCGGGCTGTATCCCCCTGCCCCCTGTCCTGGTTTACCCGAACATTCACCCGAGCACTTAA RAGCIPLPPVLVYPNIHPST* -2.118 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22834 SFHAFATDVDAHSSLPGENT 20 SLAY-screened peptide P1184 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTTTCATGCGTTTGCGACGGACGTGGACGCGCATTCGTCCCTTCCTGGTGAGAACACCTAA SFHAFATDVDAHSSLPGENT* -2.117 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22835 YA 2 SLAY-screened peptide P1185 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGCGTAGGCCCAGCTTACCACCAGTAATGCTGGGCCCATTGGGGACTCTACTTCTTCGTAA YA*AQLTTSNAGPIGDSTSS* -2.117 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22836 NLRVKYSLPCTLVANALHHS 20 SLAY-screened peptide P1186 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCTCCGTGTCAAGTATTCGTTGCCTTGTACTTTGGTCGCCAATGCTCTCCACCATAGTTAA NLRVKYSLPCTLVANALHHS* -2.117 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22837 QRPLREARIKPNHHRGFHNL 20 SLAY-screened peptide P1187 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCGCCCGCTCCGCGAGGCGCGTATTAAGCCGAACCATCATCGGGGTTTTCATAATTTGTAA QRPLREARIKPNHHRGFHNL* -2.117 0.000091 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22838 GEHPSVVTIPNNCYCYRCTD 20 SLAY-screened peptide P1188 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGAGCATCCTTCTGTGGTTACGATTCCTAATAATTGTTACTGCTATAGGTGTACCGATTAA GEHPSVVTIPNNCYCYRCTD* -2.117 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22839 PPGQHNKAPDLEYTNPFRNL 20 SLAY-screened peptide P1189 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCGGGTCAGCACAATAAGGCCCCCGACCTGGAGTATACCAATCCTTTTCGTAACCTGTAA PPGQHNKAPDLEYTNPFRNL* -2.116 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22840 APLWPHQGLSRFSILFITITN 21 SLAY-screened peptide P1190 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCTCTTTGGCCTCATCAGGGACTAAGTAGGTTTTCGATACTGTTCATCACCATAACTAAC APLWPHQGLSRFSILFITITN -2.116 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22841 DRCPSYHMFNPTVTYICRLG 20 SLAY-screened peptide P1191 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCGTTGTCCTTCGTATCACATGTTCAACCCGACGGTCACCTACATTTGCCGCCTTGGGTAA DRCPSYHMFNPTVTYICRLG* -2.116 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22842 PCQNPTSCHHSRSLSRQA 18 SLAY-screened peptide P1192 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCCAGAACCCCACGAGTTGTCATCATTCCCGTTCGCTTTCGCGCCAGGCCTAGCAGTAA PCQNPTSCHHSRSLSRQA*Q* -2.116 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22843 GNYIWPILSDHIAN 14 SLAY-screened peptide P1193 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTAATTATATTTGGCCGATCCTTTCTGACCATATCGCTAACTAGTGCCTGCTCATTTCTTAA GNYIWPILSDHIAN*CLLIS* -2.116 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22844 PLKGLLVGHRASNDNSNNGR 20 SLAY-screened peptide P1194 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCAAGGGGTTGCTGGTTGGCCACCGCGCGAGCAATGATAACAGTAATAACGGGAGGTAA PLKGLLVGHRASNDNSNNGR* -2.115 0.000739 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22845 VYVCTASDCFMSYT 14 SLAY-screened peptide P1195 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTACGTTTGCACTGCTTCGGATTGTTTCATGTCCTACACCTAGCCCGCGCAAGGAGGTAAC VYVCTASDCFMSYT*PAQGGN -2.115 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22846 CWSSP 5 SLAY-screened peptide P1196 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTGGTCGAGTCCGTAGATCAAGAACAGTCCCACGTATGCGGTTACCCATGTTCCGGCTTAA CWSSP*IKNSPTYAVTHVPA* -2.115 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22847 RKDIVCYYVSSHTYNALDNF 20 SLAY-screened peptide P1197 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAAGGATATCGTGTGCTACTACGTTAGTAGTCACACGTACAATGCTCTTGATAATTTTTAA RKDIVCYYVSSHTYNALDNF* -2.114 0.005743 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22848 LYTPNRPPTSLRSRTQTVHV 20 SLAY-screened peptide P1198 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTATACCCCCAACCGCCCTCCGACCAGCTTGCGTTCCCGCACGCAGACCGTGCATGTGTAA LYTPNRPPTSLRSRTQTVHV* -2.114 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22849 LLTTPNSHPHYRQ 13 SLAY-screened peptide P1199 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTCACGACCCCTAACTCGCACCCGCACTATCGCCAGTAGCCTCTTATCTTCACTAGCTAA LLTTPNSHPHYRQ*PLIFTS* -2.114 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22850 TRLPPSLVSSLAISGTYAYG 20 SLAY-screened peptide P1200 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCGCCTGCCTCCTAGCCTCGTGTCTAGCCTTGCTATTTCGGGGACCTACGCTTACGGCTAA TRLPPSLVSSLAISGTYAYG* -2.113 0.000334 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22851 RHESHTHYTSSQVVYVRWLI 20 SLAY-screened peptide P1201 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCACGAGAGCCATACCCATTATACTTCTTCCCAGGTCGTGTATGTGAGGTGGCTTATCTAA RHESHTHYTSSQVVYVRWLI* -2.113 0.003611 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22852 RYNLLRLGPSRDKSIGIDPS 20 SLAY-screened peptide P1202 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTATAACCTGCTCAGGCTCGGGCCTTCTCGTGATAAGTCTATTGGTATTGATCCCAGTTAA RYNLLRLGPSRDKSIGIDPS* -2.113 0.001093 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22853 GGFHNRICKNY 11 SLAY-screened peptide P1203 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGGCTTCCATAATCGCATTTGTAAGAATTATTAGCGGTGTCGCATTTACTTTGACTACTAA GGFHNRICKNY*RCRIYFDY* -2.113 0.000141 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22854 CPYLYDLAYTTSLTLHLTPT 20 SLAY-screened peptide P1204 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCCTACCTGTATGATTTGGCCTACACCACTTCGCTCACGCTCCACCTTACTCCTACGTAA CPYLYDLAYTTSLTLHLTPT* -2.111 0.000087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22855 PSNLSPTANSLSSNCPITNS 20 SLAY-screened peptide P1205 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGTAACCTTAGTCCTACCGCTAATTCCTTGTCTAGTAATTGCCCCATTACCAACTCTTAA PSNLSPTANSLSSNCPITNS* -2.111 0.000186 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22856 TNPSDCISLVSTESRVFLLH 20 SLAY-screened peptide P1206 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAACCCTTCGGATTGTATTAGCCTGGTGTCGACCGAGTCGCGGGTTTTCCTTCTTCATTAA TNPSDCISLVSTESRVFLLH* -2.11 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22857 RCRFFCVTRVIYNAAGIKAL 20 SLAY-screened peptide P1207 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTGTAGGTTCTTTTGCGTGACGAGGGTCATCTACAATGCTGCCGGCATTAAGGCTCTGTAA RCRFFCVTRVIYNAAGIKAL* -2.11 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22858 YLPNELASSSNSNYTGFYCA 20 SLAY-screened peptide P1208 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTGCCTAATGAGCTGGCCTCTAGTTCCAACAGCAATTATACCGGTTTTTATTGTGCCTAA YLPNELASSSNSNYTGFYCA* -2.109 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22859 VTFLRSGRPYMCMSS 15 SLAY-screened peptide P1209 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCACGTTCCTGCGTAGTGGTCGCCCTTACATGTGTATGTCGTCCTAGGAGGCGTGGACCTAA VTFLRSGRPYMCMSS*EAWT* -2.109 0.001013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22860 GSYGLPNGLIPHSSIRIDYL 20 SLAY-screened peptide P1210 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTCCTACGGCCTTCCTAACGGTCTCATTCCGCATTCTTCGATCCGCATTGACTATCTTTAA GSYGLPNGLIPHSSIRIDYL* -2.109 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22861 PPATWVPPNTYPTPLVYIPH 20 SLAY-screened peptide P1211 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCGGCCACTTGGGTCCCTCCTAACACGTACCCCACGCCCCTGGTTTATATTCCTCATTAA PPATWVPPNTYPTPLVYIPH* -2.108 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22862 INRNVDKMHNLNLVPFLTCF 20 SLAY-screened peptide P1212 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAACCGTAATGTGGATAAGATGCACAATCTCAACCTGGTGCCCTTCCTTACTTGCTTTTAA INRNVDKMHNLNLVPFLTCF* -2.108 0.000555 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22863 DL 2 SLAY-screened peptide P1213 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCTCTAGCATGACAGTAGCTCCTTTTTCAACACCTATGACACTAATACTGACGCCTACTAA DL*HDSSSFFNTYDTNTDAY* -2.107 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22864 IHRHHHGSNSWTYLCAKSNL 20 SLAY-screened peptide P1214 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCATCGGCATCACCACGGTAGTAATTCGTGGACGTATCTTTGCGCCAAGAGCAACTTGTAA IHRHHHGSNSWTYLCAKSNL* -2.107 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22865 QPTQLMYTHDTDNRSCLGLT 20 SLAY-screened peptide P1215 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCGACTCAGTTGATGTATACTCATGACACGGATAATCGCAGCTGTCTGGGGCTCACTTAA QPTQLMYTHDTDNRSCLGLT* -2.106 0.000548 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22866 DPLHVRDCRILSHNMSNMTY 20 SLAY-screened peptide P1216 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCGCTTCATGTGCGTGACTGTCGTATCCTCAGCCACAACATGAGTAATATGACTTATTAA DPLHVRDCRILSHNMSNMTY* -2.106 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22867 HFNCPLPTSRDPFESKESFR 20 SLAY-screened peptide P1217 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTTTAATTGCCCTCTTCCTACGAGCCGTGATCCTTTCGAGTCTAAGGAGAGTTTTCGTTAA HFNCPLPTSRDPFESKESFR* -2.106 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22868 LYTPFGYLLWSYSLASRDRK 20 SLAY-screened peptide P1218 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTACACGCCTTTCGGGTATTTGCTTTGGAGTTACTCGCTGGCTAGTCGCGATCGCAAGTAA LYTPFGYLLWSYSLASRDRK* -2.106 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22869 TSLLRHAPHSHRDPRHANTK 20 SLAY-screened peptide P1219 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTCCCTGCTTCGTCACGCGCCGCACAGTCACCGTGATCCTAGGCACGCTAATACGAAGTAA TSLLRHAPHSHRDPRHANTK* -2.105 0.00015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22870 NSVLWILSPICIRGPSRRTVA 21 SLAY-screened peptide P1220 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATAGCGTGCTCTGGATCTTGTCGCCCATTTGCATTCGAGGTCCTAGTCGGCGCACTGTTGCT NSVLWILSPICIRGPSRRTVA -2.105 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22871 RFRATMRSILIMLIGGLT 18 SLAY-screened peptide P1221 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTTCCGCGCTACTATGAGGTCTATACTGATAATGCTTATAGGAGGTCTTACATGAATTAAC RFRATMRSILIMLIGGLT*IN -2.104 0.003267 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22872 CFQFRSHYHLSRTNMYHYYN 20 SLAY-screened peptide P1222 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTTTCAGTTCCGTTCCCACTACCACCTTTCGCGGACCAATATGTACCACTACTATAATTAA CFQFRSHYHLSRTNMYHYYN* -2.103 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22873 CRQLLLEHYNTILDSIVFDH 20 SLAY-screened peptide P1223 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCGTCAGCTCCTGTTGGAGCACTACAATACTATCCTCGATAGTATCGTCTTTGACCATTAA CRQLLLEHYNTILDSIVFDH* -2.103 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22874 PIYTNCLYSTDSLTNNSRWF 20 SLAY-screened peptide P1224 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATTTATACGAATTGTTTGTACAGTACTGACAGCCTCACCAATAATTCTCGTTGGTTTTAA PIYTNCLYSTDSLTNNSRWF* -2.103 0.000324 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22875 PLDPSYGLIGAPRTVNEWAH 20 SLAY-screened peptide P1225 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTCGATCCTTCTTATGGTCTCATCGGGGCCCCGCGGACCGTCAATGAGTGGGCCCACTAA PLDPSYGLIGAPRTVNEWAH* -2.102 0.005148 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22876 VLTTHYDSATNY 12 SLAY-screened peptide P1226 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTTGACCACTCACTATGATTCTGCTACCAATTACTAGCGCCCCTACAATGACTGCTATTAA VLTTHYDSATNY*RPYNDCY* -2.102 0.000084 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22877 RATYQGSSYQLIMY 14 SLAY-screened peptide P1227 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCTACCTATCAGGGCAGTTCTTATCAGCTTATCATGTACTAGACCGGGAGTTACAAGTAA RATYQGSSYQLIMY*TGSYK* -2.102 0.000036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22878 RTTPSLAYRSHRVHSYMGDN 20 SLAY-screened peptide P1228 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACTACGCCGTCCCTCGCCTATCGTTCGCACCGTGTTCACAGCTATATGGGTGATAACTAA RTTPSLAYRSHRVHSYMGDN* -2.1 0.003349 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22879 PGMPSPSFAGQRNMPCSRSG 20 SLAY-screened peptide P1229 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGCATGCCGAGTCCTAGTTTCGCCGGCCAGAGGAATATGCCGTGTTCGCGGTCTGGGTAA PGMPSPSFAGQRNMPCSRSG* -2.1 0.002396 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22880 PNNFSANTIKHFSRFDGYCS 20 SLAY-screened peptide P1230 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAATAATTTCTCTGCCAATACTATCAAGCATTTTTCTCGTTTCGACGGTTATTGTAGCTAA PNNFSANTIKHFSRFDGYCS* -2.099 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22881 VRYNMSTNPSHSSHRVKCII 20 SLAY-screened peptide P1231 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCGTTATAATATGTCTACGAACCCTTCTCATAGTTCCCATCGTGTTAAGTGTATCATCTAA VRYNMSTNPSHSSHRVKCII* -2.099 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22882 YYDFGTRVTPYIVHTCYYTG 20 SLAY-screened peptide P1232 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTATGATTTCGGCACTCGCGTCACGCCTTATATTGTTCACACTTGTTATTACACTGGTTAA YYDFGTRVTPYIVHTCYYTG* -2.098 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22883 RELPWHSPRILFFLHLLSKA 20 SLAY-screened peptide P1233 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGAGCTTCCCTGGCACTCCCCCCGCATCTTGTTTTTTCTTCATTTGCTGTCCAAGGCCTAA RELPWHSPRILFFLHLLSKA* -2.098 0.001361 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22884 TNVSRDYRAHIVSWRLCAQP 20 SLAY-screened peptide P1234 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAACGTGTCCAGGGACTATCGGGCTCACATTGTGTCGTGGCGTCTGTGCGCTCAGCCGTAA TNVSRDYRAHIVSWRLCAQP* -2.097 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22885 ISFLCFGLRFTAFLCLRRLRN 21 SLAY-screened peptide P1235 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTCTTTTCTGTGTTTTGGCCTACGTTTTACCGCCTTCTTATGTCTCCGTCGACTACGTAAC ISFLCFGLRFTAFLCLRRLRN -2.097 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22886 KIFNRNTNLYCYNYHHVVPP 20 SLAY-screened peptide P1236 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGATCTTCAACAGGAATACCAACCTTTATTGCTATAACTACCACCACGTTGTTCCTCCGTAA KIFNRNTNLYCYNYHHVVPP* -2.096 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22887 HHPFDLVWLLLMGNWHNMEN 20 SLAY-screened peptide P1237 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCACCCGTTTGATCTGGTTTGGCTGCTTCTTATGGGCAACTGGCATAATATGGAGAATTAA HHPFDLVWLLLMGNWHNMEN* -2.096 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22888 YIYRLWRNGIIIITPMAGIT 20 SLAY-screened peptide P1238 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATATCTATCGCCTTTGGCGTAATGGTATTATCATTATTACTCCGATGGCTGGCATCACGTAA YIYRLWRNGIIIITPMAGIT* -2.095 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22889 TTQSVARGTTSQSYFNNATH 20 SLAY-screened peptide P1239 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACGCAGTCCGTCGCCCGTGGGACTACCTCTCAGTCTTACTTTAATAACGCTACTCACTAA TTQSVARGTTSQSYFNNATH* -2.095 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22890 SPALDGIMFQYQAEPGSRAA 20 SLAY-screened peptide P1240 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCTGCGCTGGATGGTATTATGTTCCAGTATCAGGCCGAGCCTGGCTCGCGCGCGGCCTAA SPALDGIMFQYQAEPGSRAA* -2.095 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22891 PPIRPYPTFHTKACTTRSLRN 21 SLAY-screened peptide P1241 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTATCCGTCCGTATCCTACTTTTCACACTAAGGCGTGTACTACGAGATCGTTGCGTAAC PPIRPYPTFHTKACTTRSLRN -2.094 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22892 PRSTCTPLQTKANLLTPCQL 20 SLAY-screened peptide P1242 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTTCTACGTGTACGCCCCTCCAGACTAAGGCTAACCTCCTCACTCCGTGTCAGCTCTAA PRSTCTPLQTKANLLTPCQL* -2.094 0.00022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22893 FAVLPHPNLNFVSSSVYEAV 20 SLAY-screened peptide P1243 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGCGGTTCTGCCTCATCCTAACCTTAATTTCGTTTCCTCGTCCGTCTACGAGGCCGTCTAA FAVLPHPNLNFVSSSVYEAV* -2.094 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22894 RTACVHIRYELVTRRRGRRA 20 SLAY-screened peptide P1244 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACTGCTTGTGTCCACATCCGTTACGAGTTGGTCACCAGGCGGCGTGGGCGCCGCGCGTAA RTACVHIRYELVTRRRGRRA* -2.094 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22895 RLSCHFVAHIFRPNIFNEHT 20 SLAY-screened peptide P1245 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCTCAGTTGTCATTTCGTTGCGCATATTTTTCGGCCCAATATTTTCAATGAGCACACCTAA RLSCHFVAHIFRPNIFNEHT* -2.093 0.00183 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22896 CAYHWNNAASDTYNVHLYTS 20 SLAY-screened peptide P1246 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGCCTACCACTGGAATAACGCTGCGTCGGACACTTATAACGTGCATCTTTATACGTCCTAA CAYHWNNAASDTYNVHLYTS* -2.093 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22897 HSGPCRYGIH 10 SLAY-screened peptide P1247 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTCTGGTCCTTGTAGGTACGGCATTCATTAGCCCTCTGTGCATAATAGTGGCTACCGTTAA HSGPCRYGIH*PSVHNSGYR* -2.093 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22898 ILSRNSPDAPHTQNLAASPY 20 SLAY-screened peptide P1248 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTCTCCAGGAACAGTCCCGATGCGCCGCACACCCAGAATCTCGCGGCTTCTCCGTATTAA ILSRNSPDAPHTQNLAASPY* -2.092 0.000068 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22899 FYMCINSLRTATRAP 15 SLAY-screened peptide P1249 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTACATGTGTATTAATTCTCTGCGTACTGCTACTCGGGCCCCGTAGCACCTGGATTCGTAA FYMCINSLRTATRAP*HLDS* -2.091 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22900 GSSPVATISNYHIHYRPGAL 20 SLAY-screened peptide P1250 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTCCTCCCCGGTGGCCACCATCTCCAACTACCACATTCATTACAGGCCGGGCGCGCTCTAA GSSPVATISNYHIHYRPGAL* -2.091 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22901 DPRNYISGEHIGSSNN 16 SLAY-screened peptide P1251 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCGCGTAACTACATCTCTGGCGAGCATATCGGGTCGAGTAATAATTAGAGTATTTCCTAA DPRNYISGEHIGSSNN*SIS* -2.091 0.000176 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22902 PKRRRTFRPTLVTIRIRRSLN 21 SLAY-screened peptide P1252 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAAACGACGCCGCACATTTAGACCCACCCTCGTAACCATCCGCATACGTCGATCTCTTAAC PKRRRTFRPTLVTIRIRRSLN -2.09 0.001394 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22903 NYANYVSAVQRGSSHTHINS 20 SLAY-screened peptide P1253 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTACGCTAATTATGTTAGCGCGGTTCAGCGCGGTAGCTCGCATACGCATATTAATTCCTAA NYANYVSAVQRGSSHTHINS* -2.09 0.000039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22904 HTRLPTDGFCTLFKVTLLICN 21 SLAY-screened peptide P1254 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACTCGTCTTCCTACTGATGGCTTTTGCACCCTCTTCAAAGTAACACTGTTGATTTGTAAC HTRLPTDGFCTLFKVTLLICN -2.089 0.001995 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22905 PAFSPCFRSPRENRAHLLPF 20 SLAY-screened peptide P1255 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTTTCTCCCCTTGCTTCCGCAGTCCGAGGGAGAATAGGGCTCATCTCCTGCCGTTCTAA PAFSPCFRSPRENRAHLLPF* -2.088 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22906 CRTMQAHNWL 10 SLAY-screened peptide P1256 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGCACGATGCAGGCTCATAATTGGCTTTAGGACGTCTCTTCTTACCACAACTCCTTTTAA CRTMQAHNWL*DVSSYHNSF* -2.087 0.000785 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22907 CQVCNAL 7 SLAY-screened peptide P1257 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCAGGTGTGTAATGCGCTTTAGGCCCCTTTTGAGGTGGTCCTTAACCTTCTGTAGCATTAA CQVCNAL*APFEVVLNLL*H* -2.087 0.000449 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22908 TCPKNPHSRTGVTTSKTKGL 20 SLAY-screened peptide P1258 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGCCCGAAGAACCCTCATTCCAGGACCGGTGTTACGACGTCGAAGACTAAGGGGTTGTAA TCPKNPHSRTGVTTSKTKGL* -2.087 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22909 PADLHDPFPIALRIRRPRRQ 20 SLAY-screened peptide P1259 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCCGATTTGCACGACCCGTTCCCGATTGCTCTCCGGATCCGCCGTCCCCGTCGCCAGTAA PADLHDPFPIALRIRRPRRQ* -2.086 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22910 TFYNEAYHQIIGCNIGNTVL 20 SLAY-screened peptide P1260 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTTTTATAACGAGGCTTACCACCAGATTATTGGTTGTAATATCGGCAATACCGTGCTTTAA TFYNEAYHQIIGCNIGNTVL* -2.085 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22911 CDVPPPFNTPLSYGWYNMGH 20 SLAY-screened peptide P1261 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGACGTGCCTCCCCCCTTTAACACTCCGCTCAGTTATGGTTGGTATAATATGGGCCATTAA CDVPPPFNTPLSYGWYNMGH* -2.084 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22912 HLSHTPRSFHNVHTAHRRVC 20 SLAY-screened peptide P1262 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTTAGTCACACGCCGCGTTCTTTTCATAATGTCCACACGGCTCATCGTCGTGTTTGCTAA HLSHTPRSFHNVHTAHRRVC* -2.084 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22913 HFCPNLPNKRDAHSSSTSTW 20 SLAY-screened peptide P1263 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTTTTGCCCGAACCTTCCCAATAAGAGGGATGCTCACAGTAGCTCGACTAGCACGTGGTAA HFCPNLPNKRDAHSSSTSTW* -2.084 0.000044 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22914 LGRMGMCVLSTTSFKKDTCV 20 SLAY-screened peptide P1264 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGGTCGTATGGGTATGTGCGTGCTCAGCACCACCAGTTTCAAGAAGGACACGTGTGTGTAA LGRMGMCVLSTTSFKKDTCV* -2.084 0.000036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22915 SLLSNAHTSIYQNCRQAFSD 20 SLAY-screened peptide P1265 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCTGCTCTCTAACGCCCATACGTCTATCTATCAGAATTGCCGCCAGGCTTTTTCCGACTAA SLLSNAHTSIYQNCRQAFSD* -2.084 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22916 RTPHSYYWSPWDHEVLLAYS 20 SLAY-screened peptide P1266 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACCCCTCATAGTTATTATTGGTCTCCGTGGGACCATGAGGTCCTCCTCGCGTACAGCTAA RTPHSYYWSPWDHEVLLAYS* -2.082 0.000177 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22917 EVYRKCNNQIELLFI 15 SLAY-screened peptide P1267 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGTGTACAGGAAGTGCAACAACCAGATTGAGCTGCTCTTCATCTAGATCGCTATGACTTAA EVYRKCNNQIELLFI*IAMT* -2.081 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22918 WKATTTPARHLDDSMSDPYL 20 SLAY-screened peptide P1268 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGAAGGCTACTACGACTCCTGCCCGTCACCTCGATGACTCCATGAGCGACCCTTATTTGTAA WKATTTPARHLDDSMSDPYL* -2.081 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22919 LSYVGSSSAMSPASLPLFLN 20 SLAY-screened peptide P1269 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCCTATGTGGGAAGTAGTTCTGCAATGTCTCCTGCCTCATTGCCATTGTTTCTTAACTGA LSYVGSSSAMSPASLPLFLN* -2.081 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22920 AEIRSASLSTRNFSAQVEST 20 SLAY-screened peptide P1270 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGAGATCCGGTCTGCTTCGCTCTCGACCCGCAACTTCTCGGCCCAGGTGGAGAGTACGTAA AEIRSASLSTRNFSAQVEST* -2.08 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22921 DVLIHTSDLMAVRIMLNNLY 20 SLAY-screened peptide P1271 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGTCCTTATCCACACTTCCGATTTGATGGCCGTCCGTATTATGCTGAATAATCTCTATTAA DVLIHTSDLMAVRIMLNNLY* -2.08 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22922 PCYDFLATNISSIDYNYYIL 20 SLAY-screened peptide P1272 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTTACGATTTTCTTGCGACGAATATCTCGTCGATTGACTATAATTATTACATTTTGTAA PCYDFLATNISSIDYNYYIL* -2.08 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22923 RCISSLI 7 SLAY-screened peptide P1273 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGTATTTCTTCTCTTATTTAGTCTATTCTGAAGTTGCATGTTGCGTCTTTTATTATTTAA RCISSLI*SILKLHVASFII* -2.078 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22924 IDPLSGDPTSGIFSSADHQI 20 SLAY-screened peptide P1274 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGATCCCCTGTCCGGGGACCCTACTTCCGGCATTTTCTCTAGTGCGGACCATCAGATCTAA IDPLSGDPTSGIFSSADHQI* -2.078 0.000335 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22925 TYRAPGCSVYCHTYTLGYNV 20 SLAY-screened peptide P1275 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTACCGGGCGCCTGGTTGCAGTGTTTACTGTCATACGTATACCCTGGGTTATAATGTCTAA TYRAPGCSVYCHTYTLGYNV* -2.078 0.003052 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22926 FSHNDCFNRDFPLTRYNQAY 20 SLAY-screened peptide P1276 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAGTCACAATGACTGTTTTAATCGTGATTTTCCGCTCACTAGGTATAACCAGGCCTATTAA FSHNDCFNRDFPLTRYNQAY* -2.076 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22927 KLKSLHVLPTSCFPSMDTDL 20 SLAY-screened peptide P1277 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCTTAAGTCCTTGCACGTTCTCCCGACTTCCTGTTTTCCGTCCATGGATACTGACCTTTAA KLKSLHVLPTSCFPSMDTDL* -2.076 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22928 LFLKGGRHRFRCTFSYEALK 20 SLAY-screened peptide P1278 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTCCTGAAGGGGGGTCGCCACCGCTTTAGGTGTACCTTCAGTTATGAGGCCTTGAAGTAA LFLKGGRHRFRCTFSYEALK* -2.076 0.002542 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22929 LHLLDPAMYNVISIPTNVDT 20 SLAY-screened peptide P1279 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCATTTGCTTGATCCGGCCATGTATAATGTTATCTCTATTCCCACTAACGTTGATACTTAA LHLLDPAMYNVISIPTNVDT* -2.075 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22930 VYNKEPNRCCTGPPIINTIS 20 SLAY-screened peptide P1280 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTACAACAAGGAGCCGAACAGGTGCTGCACTGGCCCTCCTATTATTAATACTATCTCTTAA VYNKEPNRCCTGPPIINTIS* -2.075 0.002365 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22931 AVYCCGSLLSHITTHLIDYH 20 SLAY-screened peptide P1281 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGTTTATTGCTGCGGCTCTCTTCTGTCCCACATCACTACTCACCTGATCGATTACCATTAA AVYCCGSLLSHITTHLIDYH* -2.074 0.001808 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22932 SGSAHSDDLPRAYLYHGSCL 20 SLAY-screened peptide P1282 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGGCTCCGCTCATTCTGATGATCTTCCTAGGGCTTACCTTTACCATGGTTCCTGCCTCTAA SGSAHSDDLPRAYLYHGSCL* -2.074 0.001758 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22933 NTDCVRFCYLMIHSPRWFSI 20 SLAY-screened peptide P1283 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACTGACTGCGTGCGTTTTTGCTACCTTATGATTCATTCTCCGCGTTGGTTTAGCATTTAA NTDCVRFCYLMIHSPRWFSI* -2.074 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22934 GVTHVSAKRRSNPARNITT 19 SLAY-screened peptide P1284 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGTCACCCACGTTTCCGCTAAGCGTCGGTCGAATCCTGCTCGTAATATTACGACGTAGTAA GVTHVSAKRRSNPARNITT** -2.074 0.002261 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22935 ITLTLAGRPTAHST 14 SLAY-screened peptide P1285 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTACCCTTACCTTGGCTGGCCGCCCTACTGCTCACAGTACCTAGCACTACACCGCTGGCTAA ITLTLAGRPTAHST*HYTAG* -2.073 0.000685 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22936 GHGHHNGATKVRCLDLTWQVT 21 SLAY-screened peptide P1286 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCACGGCCACCATAATGGTGCCACTAAGGTTAGGTGCTTGGATCTCACTTGGCAAGTAACT GHGHHNGATKVRCLDLTWQVT -2.073 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22937 PCLVYCTDLPAVNLPYISVF 20 SLAY-screened peptide P1287 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCCTGGTGTATTGCACGGATCTGCCCGCTGTCAACCTTCCCTACATTTCCGTGTTTTAA PCLVYCTDLPAVNLPYISVF* -2.073 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22938 SEGNAQPA 8 SLAY-screened peptide P1288 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGAGGGCAACGCCCAGCCTGCTTAGTTTCAGTTCTTCTGCCGTCAGGACCGTTATATTTAA SEGNAQPA*FQFFCRQDRYI* -2.073 0.00333 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22939 YAMTGGAWLYTFPEGMVLRY 20 SLAY-screened peptide P1289 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCGATGACTGGTGGTGCCTGGCTCTATACCTTTCCCGAGGGCATGGTTCTCAGGTACTAA YAMTGGAWLYTFPEGMVLRY* -2.072 0.000107 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22940 CTRCHNAGNYPHTYNSSIQDD 21 SLAY-screened peptide P1290 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCACGAGGTGTCACAATGCCGGCAATTATCCTCATACCTATAACTCTTCCATTCAGGACGAT CTRCHNAGNYPHTYNSSIQDD -2.072 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22941 YLCIDNNTPYMHSIN 15 SLAY-screened peptide P1291 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTTTGTATTGACAATAATACGCCTTACATGCACTCCATTAATTAGTTCTATTTTGGTTAA YLCIDNNTPYMHSIN*FYFG* -2.072 0.000047 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22942 LSNNRRLHHIAGPRENLVNGN 21 SLAY-screened peptide P1292 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAGTAACAATCGGCGCCTGCACCACATCGCTGGCCCTCGCGAGAACCTTGTTAACGGTAAC LSNNRRLHHIAGPRENLVNGN -2.072 0.002805 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22943 TYHYRAPVRSRPLYAGLDLH 20 SLAY-screened peptide P1293 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTACCATTACCGGGCCCCCGTGAGGTCTAGGCCTCTCTACGCGGGGCTCGATCTGCATTAA TYHYRAPVRSRPLYAGLDLH* -2.072 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22944 PCSMPTRNIPRRINLTALRL 20 SLAY-screened peptide P1294 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGTTCGATGCCGACTCGCAATATCCCTCGTCGTATTAATTTGACGGCGCTCCGTCTGTAA PCSMPTRNIPRRINLTALRL* -2.072 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22945 SALYYYTLCARRNIRSITLY 20 SLAY-screened peptide P1295 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCCTTGTATTATTACACGCTCTGTGCTCGCCGCAACATCCGTAGTATTACGCTTTATTAA SALYYYTLCARRNIRSITLY* -2.071 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22946 HRYLLALSRMYNRMSAVSNA 20 SLAY-screened peptide P1296 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGGTATCTGCTTGCCCTGTCTCGTATGTATAATCGTATGTCGGCTGTGAGTAATGCTTAA HRYLLALSRMYNRMSAVSNA* -2.071 0.000197 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22947 TILAPRYNRVIPTFVAWTPL 20 SLAY-screened peptide P1297 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGATCCTGGCCCCCCGTTACAATCGTGTTATCCCCACTTTTGTTGCTTGGACTCCCCTTTAA TILAPRYNRVIPTFVAWTPL* -2.071 0.00008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22948 VVAVAGRNVATVHNAEHNMY 20 SLAY-screened peptide P1298 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGTGGCTGTGGCGGGCCGGAATGTTGCGACCGTCCATAATGCCGAGCACAATATGTATTAA VVAVAGRNVATVHNAEHNMY* -2.07 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22949 VGHPPSTLRRWHPFCCSVIV 20 SLAY-screened peptide P1299 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGGGCATCCCCCTAGCACTCTTCGTCGTTGGCACCCCTTTTGCTGCTCTGTCATTGTCTAA VGHPPSTLRRWHPFCCSVIV* -2.069 0.000074 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22950 TGRGLSSVRFHDSPSVVNYA 20 SLAY-screened peptide P1300 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGTAGGGGCCTTAGTTCTGTTCGTTTTCACGATAGTCCGTCCGTCGTTAATTATGCGTAA TGRGLSSVRFHDSPSVVNYA* -2.069 0.000325 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22951 YSMPRHSNTCFIS 13 SLAY-screened peptide P1301 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACAGTATGCCCCGGCACAGCAATACTTGTTTCATTTCTTAGTCCGGTTAGACTGACCATTAA YSMPRHSNTCFIS*SG*TDH* -2.069 0.004988 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22952 LFHFYCGDLCINSPWWLPGS 20 SLAY-screened peptide P1302 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTTCATTTTTATTGCGGTGATCTCTGTATTAATAGTCCCTGGTGGCTGCCGGGTAGTTAA LFHFYCGDLCINSPWWLPGS* -2.069 0.004447 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22953 HLICVTIRSRPRRRAGTVSN 20 SLAY-screened peptide P1303 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTGATCTGCGTCACTATCCGCTCACGGCCTCGCCGACGTGCAGGCACAGTTAGTAACTGA HLICVTIRSRPRRRAGTVSN* -2.067 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22954 AIVSHPTPQADPTNPTREYN 20 SLAY-screened peptide P1304 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGATCGTCAGCCACCCGACGCCTCAGGCTGACCCTACGAACCCTACCAGGGAGTATAATTAA AIVSHPTPQADPTNPTREYN* -2.067 0.000336 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22955 HYLTFSNIPIAFLDTWE 17 SLAY-screened peptide P1305 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTATTTGACTTTCAGTAATATCCCGATCGCTTTTCTCGATACCTGGGAGTAGAAGCAGTAA HYLTFSNIPIAFLDTWE*KQ* -2.067 0.008719 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22956 SVYLDYTRRTRLTFLTTGNQ 20 SLAY-screened peptide P1306 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGTGTACCTCGATTATACCAGGCGTACGAGGCTGACTTTCCTTACTACTGGTAATCAGTAA SVYLDYTRRTRLTFLTTGNQ* -2.067 0.000844 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22957 PFKDYRCHYQALHADNPGSA 20 SLAY-screened peptide P1307 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTTAAGGATTACAGGTGCCATTACCAGGCTCTTCACGCTGATAACCCTGGCAGTGCCTAA PFKDYRCHYQALHADNPGSA* -2.066 0.000289 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22958 AQLRAKYIPTSDGFQCSKYA 20 SLAY-screened peptide P1308 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCAGCTGCGGGCTAAGTACATTCCTACCAGTGATGGCTTCCAGTGCTCGAAGTACGCTTAA AQLRAKYIPTSDGFQCSKYA* -2.065 0.000096 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22959 NKTRPLSNHNLVAVLRLMS 19 SLAY-screened peptide P1309 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATAAGACTAGGCCGCTGTCGAACCATAATCTTGTGGCTGTGCTTAGGCTTATGTCTTAGTAA NKTRPLSNHNLVAVLRLMS** -2.065 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22960 DIQRKSYRSCISIYYLTRTI 20 SLAY-screened peptide P1310 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACATTCAGCGCAAGTCTTACCGCAGCTGCATTTCGATTTACTACCTTACTAGGACTATTTAA DIQRKSYRSCISIYYLTRTI* -2.064 0.000166 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22961 YTVSVSTCATAFTVDTSKQD 20 SLAY-screened peptide P1311 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACCGTCTCTGTCTCCACCTGTGCCACCGCTTTTACTGTCGACACGTCGAAGCAGGATTAA YTVSVSTCATAFTVDTSKQD* -2.063 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22962 SPCTLVGIAHSLHDDNPVHH 20 SLAY-screened peptide P1312 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCCTTGCACCCTGGTTGGCATTGCTCATTCTTTGCATGACGACAACCCCGTCCACCATTAA SPCTLVGIAHSLHDDNPVHH* -2.063 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22963 RAPDTLASEPYVPTTGYSHS 20 SLAY-screened peptide P1313 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGCTCCTGATACGCTCGCCTCGGAGCCCTATGTCCCTACGACCGGCTACTCGCATTCCTAA RAPDTLASEPYVPTTGYSHS* -2.062 0.005441 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22964 HYRNLLTVDNHGTYSIKNFC 20 SLAY-screened peptide P1314 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTACCGTAACCTTCTTACTGTTGATAATCATGGCACTTACTCGATTAAGAACTTCTGCTAA HYRNLLTVDNHGTYSIKNFC* -2.061 0.000534 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22965 HADNLTSQPLFHNTNDRHYS 20 SLAY-screened peptide P1315 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCTGATAATCTCACCTCTCAGCCTCTCTTTCATAATACTAATGATCGTCACTATTCCTAA HADNLTSQPLFHNTNDRHYS* -2.061 0.000026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22966 IHLFFICIISTALTRRRPRSN 21 SLAY-screened peptide P1316 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCATCTGTTCTTCATATGCATCATTAGCACTGCTCTAACTAGACGCAGGCCTCGTAGTAAC IHLFFICIISTALTRRRPRSN -2.061 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22967 YSLIGIILAAYFRCHHSLSS 20 SLAY-screened peptide P1317 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCTCTTATTGGGATTATTCTCGCCGCCTACTTTAGGTGCCATCACAGTTTGAGTAGCTAA YSLIGIILAAYFRCHHSLSS* -2.061 0.003834 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22968 HMPHTTWHVH 10 SLAY-screened peptide P1318 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACATGCCGCATACCACTTGGCATGTGCACTAGAGGGCGACGACGAGTCATCCTTCTCTCTAA HMPHTTWHVH*RATTSHPSL* -2.06 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22969 RLPWLWYIVYLKMPLLARIAN 21 SLAY-screened peptide P1319 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCTGCCCTGGCTGTGGTACATTGTCTATCTTAAGATGCCCCTCCTAGCAAGAATTGCTAAC RLPWLWYIVYLKMPLLARIAN -2.059 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22970 IPSLSFTIILS 11 SLAY-screened peptide P1320 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCCTAGCCTAAGTTTCACTATAATTTTAAGTTGATTTGGCGTAAGACCGCTCACTTTTAAC IPSLSFTIILS*FGVRPLTFN -2.059 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22971 NDQHYTALCHYCCVDPGCYT 20 SLAY-screened peptide P1321 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGATCAGCACTACACGGCGCTCTGCCATTATTGTTGTGTTGACCCGGGTTGTTACACTTAA NDQHYTALCHYCCVDPGCYT* -2.059 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22972 PPYTAAPPFVFRVNSALNSH 20 SLAY-screened peptide P1322 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCTACACGGCCGCTCCTCCTTTTGTTTTCCGCGTTAACTCCGCTCTCAATAGCCACTAA PPYTAAPPFVFRVNSALNSH* -2.058 0.000578 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22973 RRCTHDMYLLTSYEPLLRNT 20 SLAY-screened peptide P1323 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAGGTGCACCCACGACATGTATCTCCTGACCAGCTACGAGCCCCTGCTGCGCAACACTTAA RRCTHDMYLLTSYEPLLRNT* -2.058 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22974 CRPSNKYAPCRPSLRHILYF 20 SLAY-screened peptide P1324 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGCCCTTCTAACAAGTACGCTCCTTGCCGCCCTTCGCTTCGCCACATTTTGTACTTTTAA CRPSNKYAPCRPSLRHILYF* -2.058 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22975 DSSAPYLYFLIIFTARSRWS 20 SLAY-screened peptide P1325 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATAGTTCTGCCCCGTACCTCTATTTTCTCATCATCTTCACCGCTCGCTCCCGTTGGTCGTAA DSSAPYLYFLIIFTARSRWS* -2.057 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22976 PVHTRTALPGPCTIRPQVRP 20 SLAY-screened peptide P1326 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTCCACACTCGTACGGCTTTGCCCGGCCCTTGCACTATCCGCCCGCAGGTCAGGCCGTAA PVHTRTALPGPCTIRPQVRP* -2.057 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22977 ATYLWTHNYHLIVYPTTRPR 20 SLAY-screened peptide P1327 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGACCTACCTTTGGACGCACAATTACCACCTTATTGTGTATCCTACCACGCGCCCTCGCTAA ATYLWTHNYHLIVYPTTRPR* -2.055 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22978 DQLPLDTWLPLLGCHPLIRI 20 SLAY-screened peptide P1328 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCAGCTCCCCCTGGACACTTGGTTGCCTCTTCTCGGGTGTCATCCCCTTATTCGCATTTAA DQLPLDTWLPLLGCHPLIRI* -2.055 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22979 PYHKMSLNAVMSVSELYLTP 20 SLAY-screened peptide P1329 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATCATAAGATGTCTCTCAATGCTGTTATGAGTGTGAGTGAGTTGTACTTGACTCCCTAA PYHKMSLNAVMSVSELYLTP* -2.054 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22980 CHVPYLHKGTYVPAFTLDEP 20 SLAY-screened peptide P1330 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACGTTCCGTACCTCCATAAGGGTACCTATGTCCCCGCGTTCACGCTTGATGAGCCCTAA CHVPYLHKGTYVPAFTLDEP* -2.052 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22981 LTPTPTATRHRTFASNNVYK 20 SLAY-screened peptide P1331 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACTCCTACTCCTACCGCCACGCGGCACCGCACTTTTGCTTCGAACAATGTCTACAAGTAA LTPTPTATRHRTFASNNVYK* -2.052 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22982 TLNNT 5 SLAY-screened peptide P1332 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTGAATAACACGTAGCCTATGCAGGAGCTCACTGGCGGCGTCATCAACAACTGCATTTAA TLNNT*PMQELTGGVINNCI* -2.052 0.000205 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22983 NSWKGTRG 8 SLAY-screened peptide P1333 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCCTGGAAGGGTACCCGAGGCTGATCTTTATTGAGTAGACTTATCCCCCTACCCTTTAAC NSWKGTRG*SLLSRLIPLPFN -2.051 0.006186 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22984 PMGVAPIYGPPLDAANFSLH 20 SLAY-screened peptide P1334 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATGGGCGTGGCTCCGATTTATGGTCCTCCTCTCGACGCTGCTAACTTCTCTCTGCATTAA PMGVAPIYGPPLDAANFSLH* -2.051 0.00004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22985 SRSQYYFPVDFMALRLLLSLN 21 SLAY-screened peptide P1335 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGCAGCCAGTACTACTTCCCTGTCGACTTTATGGCGCTCCGTTTGCTACTTTCGCTTAAC SRSQYYFPVDFMALRLLLSLN -2.051 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22986 APIYNHNCVMLCINMAPRHP 20 SLAY-screened peptide P1336 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCGATTTATAACCACAATTGTGTTATGCTTTGCATCAATATGGCTCCGCGTCATCCCTAA APIYNHNCVMLCINMAPRHP* -2.051 0.00002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22987 LPHNIWHRTGLLTHNWTARS 20 SLAY-screened peptide P1337 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCTCATAATATCTGGCATCGGACCGGCCTGTTGACTCACAATTGGACCGCTCGCTCCTAA LPHNIWHRTGLLTHNWTARS* -2.051 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22988 PHVRDKPSRARIFTSTWHVI 20 SLAY-screened peptide P1338 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCACGTCCGGGACAAGCCCTCCCGGGCTAGGATCTTCACCTCCACTTGGCATGTTATTTAA PHVRDKPSRARIFTSTWHVI* -2.051 0.000673 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22989 LKLATCLYNMHCQ 13 SLAY-screened peptide P1339 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAAGCTCGCGACGTGTCTTTACAATATGCATTGCCAGTAGGGTAATGACATTCATGTTTAA LKLATCLYNMHCQ*GNDIHV* -2.05 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22990 NVREPVHNHDNWIRGPPLFLT 21 SLAY-screened peptide P1340 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGTCCGCGAGCCCGTGCACAACCATGACAACTGGATCCGGGGCCCGCCCTTGTTCCTAACT NVREPVHNHDNWIRGPPLFLT -2.05 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22991 VHNSVLSPLNYDLFTSRKYA 20 SLAY-screened peptide P1341 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCACAATTCCGTGCTGAGCCCCCTCAATTATGACCTTTTTACTTCCAGGAAGTACGCTTAA VHNSVLSPLNYDLFTSRKYA* -2.049 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22992 NAYWTNMILCIIAFWLHTNL 20 SLAY-screened peptide P1342 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGCCTATTGGACTAACATGATCTTGTGTATCATCGCCTTTTGGCTTCACACGAACCTTTAA NAYWTNMILCIIAFWLHTNL* -2.049 0.000529 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22993 IR 2 SLAY-screened peptide P1343 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCGTTAGGACGACGCTGACTACCCCGCGGTGCTTACTTCGACCACTTATACGCGTCCGTAA IR*DDADYPAVLTSTTYTRP* -2.048 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22994 WAYNNPDD 8 SLAY-screened peptide P1344 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGGCGTACAACAACCCGGACGACTAGAGCCCGTTTCATTTTAACCTTTTGCCGTGCCCTTAA WAYNNPDD*SPFHFNLLPCP* -2.048 0.00115 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22995 TFFFLILFIHVNRNTVHPID 20 SLAY-screened peptide P1345 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTTTTTCTTTTTGATCTTGTTTATCCATGTGAATCGTAATACTGTTCATCCCATCGACTAA TFFFLILFIHVNRNTVHPID* -2.047 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22996 LYHARLYRLYLVASVDSVHS 20 SLAY-screened peptide P1346 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTACCACGCCCGCCTCTACCGCCTTTACCTCGTGGCGTCCGTGGACTCGGTTCACTCGTAA LYHARLYRLYLVASVDSVHS* -2.047 0.002145 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22997 RPSAFCLRNSNSIEFDRPTM 20 SLAY-screened peptide P1347 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCCAGCGCCTTTTGTCTCCGTAACTCTAATTCGATCGAGTTCGATCGTCCTACTATGTAA RPSAFCLRNSNSIEFDRPTM* -2.047 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22998 PDIYHRINR 9 SLAY-screened peptide P1348 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGATATCTATCACAGGATCAACCGCTAGCTGTGGACTCTGGGTAGTATTCGGAGGACTTAA PDIYHRINR*LWTLGSIRRT* -2.046 0.00019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP22999 RASSHNSFNH 10 SLAY-screened peptide P1349 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCTTCTAGCCACAATTCCTTCAACCATTAGCTCAGTTTTCATAAGTGTTTCCATAAGTAA RASSHNSFNH*LSFHKCFHK* -2.046 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23000 GKLYQYVPDIICLITRLITW 20 SLAY-screened peptide P1350 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTAAGCTTTATCAGTATGTTCCCGATATTATTTGCCTTATTACCCGTCTGATTACGTGGTAA GKLYQYVPDIICLITRLITW* -2.046 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23001 GMLDYRPSTYTNLGTTHTGGL 21 SLAY-screened peptide P1351 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCATGTTGGACTACCGCCCTTCGACCTACACGAATCTTGGTACGACGCATACTGGTGGGCTG GMLDYRPSTYTNLGTTHTGGL -2.045 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23002 APGRPRPAEPSNNAYSAPM 19 SLAY-screened peptide P1352 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCTGGTCGTCCCCGCCCGGCTGAGCCCAGCAACAATGCCTACAGTGCCCCTATGTAGTAA APGRPRPAEPSNNAYSAPM** -2.045 0.007005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23003 LVVNFRYYKEESNLVPPDFD 20 SLAY-screened peptide P1353 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGTCGTTAACTTTAGGTATTATAAGGAGGAGTCCAATCTCGTCCCGCCGGACTTCGATTAA LVVNFRYYKEESNLVPPDFD* -2.045 0.000913 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23004 LPLNPVDSDAVFTSLREPLY 20 SLAY-screened peptide P1354 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCCGCTCAATCCTGTTGATAGTGATGCTGTTTTTACCTCCCTCCGCGAGCCTCTTTATTAA LPLNPVDSDAVFTSLREPLY* -2.044 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23005 STFVVS 6 SLAY-screened peptide P1355 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCACTTTCGTGGTGTCCTAACGCGCGGCCCTATCCTCCTTCTGTATGCTGCCTCGGGGTAAC STFVVS*RAALSSFCMLPRGN -2.043 0.005663 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23006 DSMPLFLSCSPSYPSKTPNR 20 SLAY-screened peptide P1356 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTCCATGCCCTTGTTTCTTTCGTGCAGTCCCTCTTACCCGTCTAAGACTCCCAACCGTTAA DSMPLFLSCSPSYPSKTPNR* -2.042 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23007 HTKNSVHIKSCLPVSYRHRP 20 SLAY-screened peptide P1357 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACGAAGAATAGCGTCCACATTAAGTCGTGTTTGCCCGTGTCTTACCGGCACAGGCCCTAA HTKNSVHIKSCLPVSYRHRP* -2.041 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23008 LHDVIGFNRIFILPPILNYN 20 SLAY-screened peptide P1358 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCATGACGTTATCGGGTTCAATCGTATTTTTATTCTTCCCCCGATCCTCAATTATAACTAA LHDVIGFNRIFILPPILNYN* -2.041 0.001454 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23009 HAPMQRLHCRASPFLFVLVV 20 SLAY-screened peptide P1359 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCTCCCATGCAGCGTCTCCATTGTCGCGCGAGTCCCTTTCTTTTTGTGCTGGTTGTGTAA HAPMQRLHCRASPFLFVLVV* -2.041 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23010 SPDSLKPTRHFFLSTFKTVR 20 SLAY-screened peptide P1360 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCCGATAGTCTTAAGCCTACGCGCCATTTCTTTCTTAGCACTTTTAAGACCGTTCGTTAA SPDSLKPTRHFFLSTFKTVR* -2.04 0.004689 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23011 PPAGMNASVQYTRYRV 16 SLAY-screened peptide P1361 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCGCCGGCATGAATGCTTCTGTTCAGTACACTCGGTATCGCGTTTAGAGTAAGGGGTAA PPAGMNASVQYTRYRV*SKG* -2.04 0.004712 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23012 LRILYTIRINIDLSDYNVSA 20 SLAY-screened peptide P1362 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAGGATCCTTTACACTATCCGTATCAATATTGATCTCTCTGACTATAACGTGTCGGCGTAA LRILYTIRINIDLSDYNVSA* -2.04 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23013 PTRSLGRLLRFTMCRRRRSIN 21 SLAY-screened peptide P1363 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACTCGTTCTTTGGGGCGTTTACTCCGATTCACCATGTGTCGTAGACGCCGAAGCATTAAC PTRSLGRLLRFTMCRRRRSIN -2.039 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23014 FPNYKGRTRSASPYHPYSIY 20 SLAY-screened peptide P1364 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCCAATTACAAGGGGCGCACGAGGTCCGCCAGTCCTTACCACCCGTATTCTATCTACTAA FPNYKGRTRSASPYHPYSIY* -2.039 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23015 SHTLALHTARLYIDCVHCNR 20 SLAY-screened peptide P1365 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCACACCCTGGCGCTTCACACCGCCCGGCTTTACATTGATTGTGTTCATTGTAATCGGTAA SHTLALHTARLYIDCVHCNR* -2.039 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23016 PFLLSQSSMDQCFRESTDRT 20 SLAY-screened peptide P1366 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTCCTGCTTAGTCAGTCGTCGATGGACCAGTGTTTCAGGGAGAGCACCGACCGTACCTAA PFLLSQSSMDQCFRESTDRT* -2.039 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23017 GTEAFRAYITRYASCILTYL 20 SLAY-screened peptide P1367 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGACCGAGGCCTTCCGTGCGTATATTACTCGTTACGCTAGTTGCATCCTGACCTATCTGTAA GTEAFRAYITRYASCILTYL* -2.039 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23018 FISTRVTNVQAIRGHPMFRA 20 SLAY-screened peptide P1368 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTATCTCTACCCGCGTTACTAATGTTCAGGCTATCCGCGGCCACCCTATGTTTAGGGCGTAA FISTRVTNVQAIRGHPMFRA* -2.039 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23019 SCLALLLCYLKKLTLRAVHR 20 SLAY-screened peptide P1369 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTGCCTCGCGCTTCTCTTGTGCTACCTTAAGAAGTTGACTCTCCGGGCCGTGCACAGGTAA SCLALLLCYLKKLTLRAVHR* -2.038 0.000601 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23020 RSARHNCLSWDLPNSTSLLRN 21 SLAY-screened peptide P1370 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTCTGCCCGTCACAACTGCCTCAGCTGGGACCTGCCCAATTCCACTTCATTACTTCGTAAC RSARHNCLSWDLPNSTSLLRN -2.038 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23021 VHHMPNVTRHSITGFHLNDTN 21 SLAY-screened peptide P1371 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCACCACATGCCTAACGTTACGAGGCATAGCATTACTGGGTTTCACCTTAACGACACGAAC VHHMPNVTRHSITGFHLNDTN -2.038 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23022 SGLALSYMTVCYVNSHYYSY 20 SLAY-screened peptide P1372 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGGTTTGGCCCTCAGCTATATGACGGTGTGTTATGTCAATAGTCACTACTACTCTTACTAA SGLALSYMTVCYVNSHYYSY* -2.038 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23023 HISNGYRIWFLFCYHFYCRT 20 SLAY-screened peptide P1373 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATCTCCAACGGGTATCGCATTTGGTTCCTGTTTTGTTATCACTTTTACTGTCGCACCTAA HISNGYRIWFLFCYHFYCRT* -2.038 0.000356 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23024 CDFRMPTYKYNYDII 15 SLAY-screened peptide P1374 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGATTTCCGCATGCCTACTTACAAGTACAATTATGACATTATTTAGTTCTCGACGGCGTAA CDFRMPTYKYNYDII*FSTA* -2.037 0.000528 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23025 DPTNNTYSTRIQGSGDSPVY 20 SLAY-screened peptide P1375 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCTACTAACAACACCTATTCGACGCGTATTCAGGGTAGTGGCGACAGTCCGGTTTATTAA DPTNNTYSTRIQGSGDSPVY* -2.036 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23026 IPSRRQATMAPSYTSF 16 SLAY-screened peptide P1376 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCCTCGCGCCGTCAGGCCACTATGGCCCCGAGCTATACCTCGTTTTAGACCCCGCTCTAA IPSRRQATMAPSYTSF*TPL* -2.036 0.00012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23027 LYRASTQRTSGDCGFLFLCL 20 SLAY-screened peptide P1377 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTACCGCGCCTCTACGCAGCGTACCTCTGGCGATTGTGGCTTCTTGTTTCTGTGCCTGTAA LYRASTQRTSGDCGFLFLCL* -2.036 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23028 FSANGDATM 9 SLAY-screened peptide P1378 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTCCGCTAATGGGGATGCTACCATGTAGACTTTCGTCTATAATAGTCTTACTAATGAGTAA FSANGDATM*TFVYNSLTNE* -2.036 0.000052 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23029 PSNLLYHRVHLSPDMHCWGT 20 SLAY-screened peptide P1379 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCAATTTGCTCTACCATCGTGTGCACTTGAGTCCTGATATGCACTGCTGGGGCACGTAA PSNLLYHRVHLSPDMHCWGT* -2.036 0.00205 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23030 HGIDTHIIYPSAFNYTHTEH 20 SLAY-screened peptide P1380 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGGCATTGATACTCACATTATCTATCCTAGTGCCTTCAACTACACGCATACTGAGCATTAA HGIDTHIIYPSAFNYTHTEH* -2.035 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23031 LSPGLATILRFLSLALALRLL 21 SLAY-screened peptide P1381 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAGTCCCGGGCTTGCTACAATCCTAAGATTCCTTTCCCTCGCTCTAGCCTTACGGCTCCTT LSPGLATILRFLSLALALRLL -2.035 0.000762 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23032 TLVSSSNF 8 SLAY-screened peptide P1382 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTTGTGTCGAGTTCTAACTTCTAGAGCGTCTGTGAGTACGCGATCAACGATTCCTCCTAA TLVSSSNF*SVCEYAINDSS* -2.035 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23033 YPRSAVSTFCFNQGRYSFDV 20 SLAY-screened peptide P1383 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCCCGCTCTGCGGTTTCCACCTTCTGCTTTAATCAGGGTAGGTACTCTTTTGACGTGTAA YPRSAVSTFCFNQGRYSFDV* -2.034 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23034 QATLANTFDLERYDRNKLPD 20 SLAY-screened peptide P1384 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGCGACGCTGGCTAATACGTTTGACCTCGAGCGGTACGACCGTAACAAGCTGCCGGATTAA QATLANTFDLERYDRNKLPD* -2.034 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23035 NTSPPDKRASSHLRRQTACY 20 SLAY-screened peptide P1385 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACCAGCCCTCCCGACAAGCGCGCGAGTTCTCATCTCCGCCGTCAGACTGCTTGTTACTAA NTSPPDKRASSHLRRQTACY* -2.033 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23036 ISSNCVHH 8 SLAY-screened peptide P1386 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTCTAGTAACTGCGTTCATCATTAGGCCAATAATGGGATTATCTTCACGAGGACTTATTAA ISSNCVHH*ANNGIIFTRTY* -2.032 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23037 VRTNLPIDSLPSARSYENST 20 SLAY-screened peptide P1387 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCGGACCAACTTGCCTATTGATTCTCTCCCTTCTGCCCGTTCTTACGAGAATTCGACGTAA VRTNLPIDSLPSARSYENST* -2.031 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23038 LPLRKSHHAA 10 SLAY-screened peptide P1388 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCTCTGCGCAAGAGCCATCATGCGGCTTAGTGTAACCTGCACACTTCGAACAATATTTAA LPLRKSHHAA*CNLHTSNNI* -2.029 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23039 RFTHICGNIGYHNFNIITSS 20 SLAY-screened peptide P1389 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTTACGCATATTTGTGGTAACATTGGCTACCATAATTTCAACATCATCACCAGTTCCTAA RFTHICGNIGYHNFNIITSS* -2.029 0.000091 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23040 DTGYVPRSLRTYRTATPVSA 20 SLAY-screened peptide P1390 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATACGGGTTATGTCCCTCGGAGCTTGCGGACTTACCGTACGGCCACGCCCGTCTCCGCGTAA DTGYVPRSLRTYRTATPVSA* -2.029 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23041 PQALTDIDSGRSIMHDNSFL 20 SLAY-screened peptide P1391 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCAGGCTCTCACTGATATCGACTCTGGTCGCAGCATTATGCACGACAACAGTTTTTTGTAA PQALTDIDSGRSIMHDNSFL* -2.029 0.000062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23042 SLM 3 SLAY-screened peptide P1392 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCTGATGTAGGCGCCCCACCACCGCCTGAACTTGATTACGCAGGATATTTGCTCCTCCTAA SLM*APHHRLNLITQDICSS* -2.028 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23043 VPWCTTAPCPPSGEP 15 SLAY-screened peptide P1393 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCCTGGTGCACTACTGCTCCGTGTCCGCCTTCTGGGGAGCCTTAGCACAAGACGTATTAA VPWCTTAPCPPSGEP*HKTY* -2.028 0.000101 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23044 IGVLHAHASN 10 SLAY-screened peptide P1394 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGGTGTTCTCCACGCCCACGCTTCGAATTAGACCCCCGCGGACCCCTCGGACTTCTCCTAA IGVLHAHASN*TPADPSDFS* -2.028 0.005386 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23045 YNSYVVPCSIRKLFACHCFY 20 SLAY-screened peptide P1395 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAATTCCTACGTGGTTCCTTGTAGTATTCGTAAGCTGTTCGCGTGCCATTGCTTTTACTAA YNSYVVPCSIRKLFACHCFY* -2.028 0.002712 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23046 RSCAGAMRRSIGRWMRLRRR 20 SLAY-screened peptide P1396 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTCGTGCGCCGGCGCGATGCGGCGGTCGATCGGCCGCTGGATGAGGTTGCGGCGGCGTTAA RSCAGAMRRSIGRWMRLRRR* -2.028 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23047 YRTAVRVYTVSKTYFKTDDQ 20 SLAY-screened peptide P1397 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCGTACCGCCGTGCGGGTCTATACGGTTTCGAAGACTTATTTCAAGACTGATGATCAGTAA YRTAVRVYTVSKTYFKTDDQ* -2.028 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23048 AALHYANHISHFVHLDG 17 SLAY-screened peptide P1398 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCCCTTCATTACGCTAATCACATCTCGCATTTTGTTCACCTGGACGGCTAGTACATTTAA AALHYANHISHFVHLDG*YI* -2.027 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23049 SFDYIALPHFIVRNMRL 17 SLAY-screened peptide P1399 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTTTGACTACATTGCCCTCCCGCATTTTATTGTCCGGAATATGCGCCTCTAGAATTTCTAA SFDYIALPHFIVRNMRL*NF* -2.027 0.001036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23050 EMNSTRTQWHRSSQPTNPCS 20 SLAY-screened peptide P1400 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGATGAATTCCACTCGCACGCAGTGGCACCGTTCGAGCCAGCCTACTAACCCCTGCAGTTAA EMNSTRTQWHRSSQPTNPCS* -2.027 0.000099 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23051 PALYKIFKRLLHPSTTCPSA 20 SLAY-screened peptide P1401 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCCCTCTACAAGATCTTTAAGCGTTTGTTGCATCCTTCTACCACCTGCCCGTCCGCGTAA PALYKIFKRLLHPSTTCPSA* -2.026 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23052 DLFGSAPWGNMYPYDYLSLRR 21 SLAY-screened peptide P1402 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCTGTTCGGTTCGGCGCCCTGGGGCAACATGTACCCCTACGATTACCTATCACTACGACGT DLFGSAPWGNMYPYDYLSLRR -2.026 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23053 LPKSLMQTLPSRTTHDIFIR 20 SLAY-screened peptide P1403 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCTAAGTCCCTCATGCAGACTCTCCCTAGTCGTACGACTCATGACATCTTTATTAGGTAA LPKSLMQTLPSRTTHDIFIR* -2.026 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23054 EPQASHPTF 9 SLAY-screened peptide P1404 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCCCCAGGCCTCGCATCCTACTTTCTAGTATTCTACGTCGTACGGTATCGGGCCTATTTAA EPQASHPTF*YSTSYGIGPI* -2.026 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23055 PSLIASPGEHTSPSAVWEFG 20 SLAY-screened peptide P1405 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAGTCTGATTGCCAGCCCTGGCGAGCATACCTCTCCCTCCGCCGTGTGGGAGTTCGGCTAA PSLIASPGEHTSPSAVWEFG* -2.026 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23056 CYELWINSQVANPSVSIRSS 20 SLAY-screened peptide P1406 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTACGAGCTGTGGATTAACTCTCAGGTCGCGAACCCGAGCGTTTCTATTCGGTCGTCGTAA CYELWINSQVANPSVSIRSS* -2.025 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23057 SRHNYRKRLFSDLSNGAMNP 20 SLAY-screened peptide P1407 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCGCCATAACTATCGGAAGAGGCTCTTTTCTGATCTTAGCAACGGGGCCATGAATCCTTAA SRHNYRKRLFSDLSNGAMNP* -2.025 0.001096 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23058 DIMFTKRSQCPCHTWTYARS 20 SLAY-screened peptide P1408 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATATTATGTTTACGAAGCGTTCGCAGTGCCCGTGTCATACGTGGACGTACGCGAGGTCTTAA DIMFTKRSQCPCHTWTYARS* -2.025 0.000354 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23059 TMKINASSD 9 SLAY-screened peptide P1409 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCATGAAGATTAATGCTAGCAGTGATTAGTCGGGGTTCGCTCCTCAGTTCACTTTTTAGTAA TMKINASSD*SGFAPQFTF** -2.023 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23060 TVLCMED 7 SLAY-screened peptide P1410 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTCCTTTGTATGGAGGATTAGACGCAGCTTTACCTGTCTCCGAATATTGTCTTGAATTAA TVLCMED*TQLYLSPNIVLN* -2.023 0.008676 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23061 ERSHHQTTVVYTMYLLGANT 20 SLAY-screened peptide P1411 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAGGAGTCATCATCAGACTACCGTTGTTTATACTATGTACCTGCTTGGTGCGAATACGTAA ERSHHQTTVVYTMYLLGANT* -2.023 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23062 VWGEQSIFFITCGSHTNCMG 20 SLAY-screened peptide P1412 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTGGGGTGAGCAGAGTATTTTTTTTATCACGTGTGGCAGCCACACCAATTGCATGGGCTAA VWGEQSIFFITCGSHTNCMG* -2.023 0.001132 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23063 HFMTAACDVMAYKACVNSML 20 SLAY-screened peptide P1413 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTTCATGACTGCCGCTTGCGATGTTATGGCTTACAAGGCGTGCGTTAACAGCATGCTTTAA HFMTAACDVMAYKACVNSML* -2.021 0.003274 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23064 YLVRGASHNPNPHLFMRTLN 20 SLAY-screened peptide P1414 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTGGTCCGTGGTGCTAGCCACAATCCTAACCCTCACTTGTTCATGCGCACGCTTAACTAA YLVRGASHNPNPHLFMRTLN* -2.02 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23065 PIYVFASAVAAMCWFVTTYS 20 SLAY-screened peptide P1415 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATTTACGTCTTCGCCAGCGCTGTGGCCGCTATGTGTTGGTTTGTTACTACCTACTCTTAA PIYVFASAVAAMCWFVTTYS* -2.019 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23066 FNTNRLPSVSRTNKFPTVVT 20 SLAY-screened peptide P1416 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTAACACGAATAGGCTTCCTTCTGTGTCCCGTACTAATAAGTTTCCTACCGTTGTCACCTAA FNTNRLPSVSRTNKFPTVVT* -2.019 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23067 NADSTVILTVIFSYGDKCGC 20 SLAY-screened peptide P1417 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGCGGACTCTACTGTTATTCTCACTGTTATTTTTTCTTATGGCGACAAGTGTGGTTGTTAA NADSTVILTVIFSYGDKCGC* -2.019 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23068 LITLHLIIGPFCCLSLRRRM 20 SLAY-screened peptide P1418 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATCACCCTTCACTTGATCATCGGCCCGTTTTGTTGCCTTTCCCTGAGGAGGCGCATGTAA LITLHLIIGPFCCLSLRRRM* -2.019 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23069 RLPNPNNPNRDPQPPARLCP 20 SLAY-screened peptide P1419 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTGCCCAATCCTAACAACCCCAACCGCGATCCTCAGCCGCCTGCGCGTCTCTGTCCGTAA RLPNPNNPNRDPQPPARLCP* -2.018 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23070 IQERKASCPQNHHFRFTDPL 20 SLAY-screened peptide P1420 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCAGGAGCGCAAGGCCTCCTGTCCTCAGAACCATCACTTCCGCTTTACTGACCCTCTCTAA IQERKASCPQNHHFRFTDPL* -2.018 0.014819 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23071 VLLMPSSTTTVSDAPTTGYM 20 SLAY-screened peptide P1421 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCTCCTTATGCCGTCCAGCACTACTACTGTCAGCGACGCGCCGACTACGGGTTACATGTAA VLLMPSSTTTVSDAPTTGYM* -2.017 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23072 LDLYIRVNIIPEYTGPKYTS 20 SLAY-screened peptide P1422 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGATCTCTACATCCGCGTTAATATCATTCCCGAGTATACTGGCCCTAAGTATACTTCTTAA LDLYIRVNIIPEYTGPKYTS* -2.017 0.010385 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23073 SYISPFNHPVFHRVATHYRS 20 SLAY-screened peptide P1423 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTACATTAGCCCGTTTAATCATCCTGTGTTTCACCGTGTCGCTACTCACTATCGCTCCTAA SYISPFNHPVFHRVATHYRS* -2.017 0.001817 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23074 MRLGLILRMAALLALLALRLT 21 SLAY-screened peptide P1424 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCGGTTGGGACTAATTCTTCGCATGGCAGCTCTGCTTGCCCTCCTGGCCTTACGCCTAACT MRLGLILRMAALLALLALRLT -2.017 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23075 RPTAVDAARRQEIYDYFNFH 20 SLAY-screened peptide P1425 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCGACTGCGGTTGATGCGGCGCGCCGTCAGGAGATCTATGACTATTTCAATTTCCACTAA RPTAVDAARRQEIYDYFNFH* -2.017 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23076 DTLHLGGHRGNHYIHVFFRF 20 SLAY-screened peptide P1426 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATACTCTGCACCTCGGTGGCCACCGTGGGAACCATTACATTCACGTCTTTTTTAGGTTTTAA DTLHLGGHRGNHYIHVFFRF* -2.016 0.001889 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23077 VPSLAVTGTNN 11 SLAY-screened peptide P1427 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCCCTCCTTGGCCGTTACGGGGACCAATAACTAGATTGCGTACCCCCCCGGCTAGCCCTAA VPSLAVTGTNN*IAYPPG*P* -2.016 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23078 GTGPTAANDAMCRPRHTMNA 20 SLAY-screened peptide P1428 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCACGGGCCCGACGGCCGCGAATGATGCCATGTGTCGGCCGCGGCACACTATGAACGCCTAA GTGPTAANDAMCRPRHTMNA* -2.016 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23079 GCDSHNRYNL 10 SLAY-screened peptide P1429 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTGTGACTCTCATAACCGCTATAACCTCTAGTATCTTTACCGTGAGGTTTGGCCCTACTAA GCDSHNRYNL*YLYREVWPY* -2.016 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23080 LIDLSLDLLTLIWAGRTSRRN 21 SLAY-screened peptide P1430 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATTGACCTGTCTTTGGACCTGCTCACCTTGATTTGGGCAGGAAGGACCTCACGTCGTAAC LIDLSLDLLTLIWAGRTSRRN -2.013 0.007873 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23081 WYNPTAAP 8 SLAY-screened peptide P1431 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTATAACCCCACTGCCGCTCCCTAGACGGCGACTCCGACTATTTGGCGGCGCATTTACTAA WYNPTAAP*TATPTIWRRIY* -2.013 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23082 SHTFCGQVINLHANSHTCVR 20 SLAY-screened peptide P1432 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCACACCTTTTGCGGTCAGGTCATTAACCTTCACGCTAACTCCCACACCTGTGTCCGGTAA SHTFCGQVINLHANSHTCVR* -2.013 0.000022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23083 TLGYIHYTHVEDYVRPFCNY 20 SLAY-screened peptide P1433 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTTGGGTTATATTCACTATACTCACGTCGAGGATTATGTCCGGCCTTTTTGTAATTATTAA TLGYIHYTHVEDYVRPFCNY* -2.012 0.000233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23084 MAQDPRSNHRYDNKPIHYNV 20 SLAY-screened peptide P1434 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGCCCAGGATCCCAGGTCTAACCATCGCTATGACAATAAGCCTATTCACTATAATGTTTAA MAQDPRSNHRYDNKPIHYNV* -2.012 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23085 RDHDISSIRPSITNVNDDMQ 20 SLAY-screened peptide P1435 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGATCACGATATCTCTTCTATTCGCCCTAGCATCACTAATGTTAATGACGATATGCAGTAA RDHDISSIRPSITNVNDDMQ* -2.011 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23086 LVFYALIPTLSKNCSPLLSL 20 SLAY-screened peptide P1436 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTTTTCTATGCCCTTATTCCTACCCTCAGTAAGAATTGTTCTCCTCTTCTTAGCCTTTAA LVFYALIPTLSKNCSPLLSL* -2.011 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23087 YRLTPFNQGLNKIIYCRFRP 20 SLAY-screened peptide P1437 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCGCCTCACTCCCTTTAATCAGGGTCTGAATAAGATTATCTACTGTCGTTTCAGGCCCTAA YRLTPFNQGLNKIIYCRFRP* -2.01 0.000596 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23088 SSHRDIPRPHRLLCLFPYIS 20 SLAY-screened peptide P1438 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTCCCATCGCGATATTCCGAGGCCTCACCGTCTCCTGTGTCTGTTTCCTTATATTTCCTAA SSHRDIPRPHRLLCLFPYIS* -2.01 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23089 ALHDAILSDCICTNPGM 17 SLAY-screened peptide P1439 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCTGCATGATGCCATTCTTAGTGATTGTATCTGTACCAATCCTGGCATGTAGAATATTTAA ALHDAILSDCICTNPGM*NI* -2.01 0.000978 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23090 TRCNWSILEME 11 SLAY-screened peptide P1440 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCGTTGCAATTGGAGCATCCTTGAGATGGAGTAGGCGTATGTTCCGAGTCTTCTCCCTTAA TRCNWSILEME*AYVPSLLP* -2.01 0.00003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23091 TPEDAGGPHCAK 12 SLAY-screened peptide P1441 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCGGAGGACGCGGGCGGTCCTCACTGCGCCAAGTAGCCCGAGGAGATTAATCTCTCGTAA TPEDAGGPHCAK*PEEINLS* -2.01 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23092 PPSS 4 SLAY-screened peptide P1442 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCGTCGAGTTAGGGTTTTCATTATCCTTCGGACTCCAATGCTATTAGGATTAATTGCTAA PPSS*GFHYPSDSNAIRINC* -2.009 0.000438 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23093 LPTLDFPTSKGYMSDRP 17 SLAY-screened peptide P1443 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCCTACTCTTGATTTTCCGACCAGCAAGGGTTATATGTCCGATAGGCCTTAGGATTTCTAA LPTLDFPTSKGYMSDRP*DF* -2.009 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23094 LSLHHYSSLPVNSHWTRRAS 20 SLAY-screened peptide P1444 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAGTCTCCATCACTACTCCAGCTTGCCCGTGAATTCGCATTGGACTCGTCGGGCTTCCTAA LSLHHYSSLPVNSHWTRRAS* -2.009 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23095 TAPFDWSNVNTPCNTNFVYL 20 SLAY-screened peptide P1445 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCTCCGTTCGATTGGTCTAACGTGAACACCCCTTGCAATACCAATTTTGTTTACCTTTAA TAPFDWSNVNTPCNTNFVYL* -2.008 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23096 LQTRLFVRREQGSIEFIYP 19 SLAY-screened peptide P1446 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCAGACTCGTCTGTTTGTTCGTAGGGAGCAGGGCTCCATTGAGTTCATCTATCCGTAGTAA LQTRLFVRREQGSIEFIYP** -2.008 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23097 MPLHHSTSGRLTHFLPLASK 20 SLAY-screened peptide P1447 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCCGTTGCACCATTCCACTAGCGGTAGGCTCACTCACTTCCTGCCGCTTGCGTCGAAGTAA MPLHHSTSGRLTHFLPLASK* -2.007 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23098 YHPKHTYRTIDTLDLPYHVT 20 SLAY-screened peptide P1448 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCACCCCAAGCATACCTACCGGACCATCGATACTCTGGATCTGCCTTATCATGTCACCTAA YHPKHTYRTIDTLDLPYHVT* -2.007 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23099 ATCTPLSYRL 10 SLAY-screened peptide P1449 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACCTGTACTCCCCTTTCCTACCGCCTTTAGATCAACTCTTAGCTGCTCACTCTTGGGTAA ATCTPLSYRL*INS*LLTLG* -2.007 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23100 PRHSVSLALASMPNIPAAYW 20 SLAY-screened peptide P1450 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGGCATAGCGTCTCCCTTGCCCTCGCTAGTATGCCCAATATTCCTGCGGCCTACTGGTAA PRHSVSLALASMPNIPAAYW* -2.007 0.002761 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23101 SEHFGLPPPRHILVPILDDT 20 SLAY-screened peptide P1451 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGAGCACTTCGGCCTGCCTCCGCCGAGGCACATTCTTGTCCCTATTCTCGATGACACGTAA SEHFGLPPPRHILVPILDDT* -2.006 0.018247 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23102 YLNNRLFCRWHGDCHI 16 SLAY-screened peptide P1452 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCTTAACAATCGTCTTTTCTGTCGCTGGCATGGTGATTGTCACATCTGACGTTCACTTAAC YLNNRLFCRWHGDCHI*RSLN -2.006 0.00437 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23103 NHFICFRLLLVYKLSRSGRR 20 SLAY-screened peptide P1453 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCATTTTATTTGCTTCCGCCTGCTTTTGGTTTACAAGCTTAGCCGTAGCGGCCGGCGTTAA NHFICFRLLLVYKLSRSGRR* -2.006 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23104 ACYYFFLFFFRSTYNRHSTD 20 SLAY-screened peptide P1454 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTGTTACTACTTTTTCCTCTTTTTCTTCAGGAGCACTTACAACCGCCATAGTACTGATTAA ACYYFFLFFFRSTYNRHSTD* -2.006 0.00043 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23105 PPKCDHTRLWALYNDPILIL 20 SLAY-screened peptide P1455 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCAAGTGCGATCACACGCGTCTTTGGGCTTTGTATAACGACCCTATCTTGATTCTTTAA PPKCDHTRLWALYNDPILIL* -2.005 0.00055 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23106 FYPIHHTWYTQLRTCYDSAP 20 SLAY-screened peptide P1456 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTATCCTATCCACCACACCTGGTATACTCAGCTTCGCACCTGTTATGATAGTGCCCCCTAA FYPIHHTWYTQLRTCYDSAP* -2.005 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23107 FRMNSFDHYASIIPTTRGTI 20 SLAY-screened peptide P1457 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCGGATGAACAGCTTTGATCACTATGCGTCTATTATCCCGACGACGCGCGGGACGATTTAA FRMNSFDHYASIIPTTRGTI* -2.005 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23108 PRALWHASDLHSG 13 SLAY-screened peptide P1458 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGCGCTCTTTGGCATGCCAGTGATCTTCATTCTGGTTAGACCCCCACTAAGGTTGGCTAA PRALWHASDLHSG*TPTKVG* -2.004 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23109 SPPIRFSCYLPDSTCSDTTS 20 SLAY-screened peptide P1459 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCTCCCATTCGTTTTTCTTGTTACCTTCCCGATTCCACCTGCAGTGACACCACTTCGTAA SPPIRFSCYLPDSTCSDTTS* -2.004 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23110 SCIFPKSPIQSYASTDLSIS 20 SLAY-screened peptide P1460 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTGCATCTTCCCTAAGAGCCCGATCCAGTCGTATGCTAGCACGGATTTGTCGATTTCCTAA SCIFPKSPIQSYASTDLSIS* -2.004 0.000201 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23111 RLPRCHTMYLRHSLSHMQIR 20 SLAY-screened peptide P1461 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTCCCTCGCTGTCATACGATGTATCTCCGTCATTCCTTGAGTCACATGCAGATTCGCTAA RLPRCHTMYLRHSLSHMQIR* -2.004 0.001553 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23112 NCA 3 SLAY-screened peptide P1462 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGTGCTTAGTGCTCGTATAATACTATCCATAACAAGACCTAGAATCTGTTGGGTGTGTAA NCA*CSYNTIHNKT*NLLGV* -2.003 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23113 RQHGYCHFLRYSRHRRMHRH 20 SLAY-screened peptide P1463 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCAGCATGGTTATTGTCATTTCCTTCGTTATTCCCGCCATCGTCGTATGCACCGTCATTAA RQHGYCHFLRYSRHRRMHRH* -2.003 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23114 DHHWLTALVNPHGMVSPNRL 20 SLAY-screened peptide P1464 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCACCACTGGCTCACCGCTCTGGTCAATCCGCACGGCATGGTGTCTCCTAATAGGCTCTAA DHHWLTALVNPHGMVSPNRL* -2.002 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23115 RAGAIPHIARALALFWISSS 20 SLAY-screened peptide P1465 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCCGGCGCGATTCCCCATATCGCGCGCGCTCTCGCTTTGTTTTGGATCTCTTCTTCGTAA RAGAIPHIARALALFWISSS* -2.002 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23116 SYIVKSYLHNRSSATCKTYR 20 SLAY-screened peptide P1466 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTATATTGTCAAGTCTTATCTGCATAATCGGAGTTCGGCTACTTGTAAGACTTACAGGTAA SYIVKSYLHNRSSATCKTYR* -2.002 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23117 ALVYSNRPAIHDGEPLITNT 20 SLAY-screened peptide P1467 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCTCGTCTATAGCAATAGGCCTGCGATTCACGACGGGGAGCCGCTGATTACTAATACCTAA ALVYSNRPAIHDGEPLITNT* -2.001 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23118 LSSLVANAITHCFLLAREIR 20 SLAY-screened peptide P1468 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCGAGTCTCGTTGCTAATGCGATTACCCACTGCTTCTTGCTGGCGCGCGAGATTCGTTAA LSSLVANAITHCFLLAREIR* -2.001 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23119 FPRYMFTATGRLDDGRAMSY 20 SLAY-screened peptide P1469 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCCCAGGTATATGTTTACTGCTACTGGCCGCCTTGATGACGGCCGGGCCATGAGTTATTAA FPRYMFTATGRLDDGRAMSY* -2 0.008938 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23120 LVATCSPYHTPTRLEQHNTS 20 SLAY-screened peptide P1470 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGTGGCTACGTGCTCCCCTTATCATACTCCTACGCGTCTGGAGCAGCATAACACTAGTTAA LVATCSPYHTPTRLEQHNTS* -2 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23121 ADDTRPRRTITRLLVYAFHT 20 SLAY-screened peptide P1471 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGACGACACTCGCCCCAGGCGTACTATTACCAGGCTTCTTGTCTATGCTTTCCACACGTAA ADDTRPRRTITRLLVYAFHT* -2 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23122 FSSHGHQLEAKFIFRPKPNS 20 SLAY-screened peptide P1472 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAGTTCTCACGGCCATCAGCTTGAGGCCAAGTTCATTTTCAGGCCCAAGCCTAACTCCTAA FSSHGHQLEAKFIFRPKPNS* -1.999 0.000233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23123 GHYYLCFYLAVTLTIRRIDLT 21 SLAY-screened peptide P1473 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCACTATTATCTCTGTTTCTACCTTGCAGTGACATTGACCATAAGAAGAATAGATCTAACT GHYYLCFYLAVTLTIRRIDLT -1.998 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23124 PLPNLVGTAASNHIFEKSKST 21 SLAY-screened peptide P1474 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGCCTAACCTGGTTGGGACCGCTGCGAGTAATCATATTTTTGAGAAGAGTAAGTCGACC PLPNLVGTAASNHIFEKSKST -1.997 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23125 HSSIWNRCHIFMHTLDHYPT 20 SLAY-screened peptide P1475 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAGCTCTATCTGGAACCGCTGCCATATTTTTATGCATACGCTTGACCATTACCCCACCTAA HSSIWNRCHIFMHTLDHYPT* -1.997 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23126 INSRRDTGDSRLVFVAYSSP 20 SLAY-screened peptide P1476 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAATTCTCGTAGGGATACTGGCGATTCCCGTTTGGTGTTTGTTGCTTACTCGTCTCCTTAA INSRRDTGDSRLVFVAYSSP* -1.997 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23127 LYGM 4 SLAY-screened peptide P1477 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTACGGGATGTAGTAGCGCCCTCTTGTGGGGTTTATCTATTACTCTAGTCATTAGAAGTAA LYGM**RPLVGFIYYSSH*K* -1.996 0.000222 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23128 ILNWIKGYLHHVLARRNLSS 20 SLAY-screened peptide P1478 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCTGAACTGGATCAAGGGTTATCTTCACCACGTGTTGGCCCGTCGGAATCTTTCGTCTTAA ILNWIKGYLHHVLARRNLSS* -1.996 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23129 NGLDPCYNNCINYLNHIR 18 SLAY-screened peptide P1479 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGGGCTTGATCCCTGCTATAATAACTGTATCAACTATCTCAATCATATCCGGTAGACTTAA NGLDPCYNNCINYLNHIR*T* -1.996 0.000577 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23130 RPCDFLLSNKSVVFQNKNRF 20 SLAY-screened peptide P1480 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCTTGTGATTTTTTGCTTTCTAACAAGTCTGTTGTGTTTCAGAATAAGAACCGGTTTTAA RPCDFLLSNKSVVFQNKNRF* -1.995 0.000375 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23131 RRHPSVLYPCTFQIVYYGLC 20 SLAY-screened peptide P1481 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAGGCACCCCTCGGTCCTGTACCCCTGCACTTTTCAGATTGTCTACTATGGCCTTTGTTAA RRHPSVLYPCTFQIVYYGLC* -1.995 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23132 DCRSCNYRPTGSWRECGVIP 20 SLAY-screened peptide P1482 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTGTCGCTCCTGTAATTACCGTCCCACGGGGTCCTGGCGCGAGTGTGGTGTCATCCCTTAA DCRSCNYRPTGSWRECGVIP* -1.995 0.000754 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23133 PMYTSPFSAYDRQHNTNCCR 20 SLAY-screened peptide P1483 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATGTACACGAGTCCTTTCTCGGCGTATGACCGTCAGCACAACACTAATTGTTGTCGTTAA PMYTSPFSAYDRQHNTNCCR* -1.995 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23134 LVLGCCLCCRIRFRATINSN 20 SLAY-screened peptide P1484 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGTCCTTGGGTGCTGTTTGTGCTGCCGTATCCGCTTTCGGGCCACTATCAATTCGAACTAA LVLGCCLCCRIRFRATINSN* -1.994 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23135 DNVDNN 6 SLAY-screened peptide P1485 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATAACGTGGATAATAATTAGATTCGCCCTATCGCGACAATGTCAATTACCGTATTCCTTAAC DNVDNN*IRPIATMSITVFLN -1.994 0.005993 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23136 KGYLGRFRPRDTLNDRKTAR 20 SLAY-screened peptide P1486 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGGGTTACCTGGGCCGGTTCCGTCCTAGGGACACTCTCAACGACCGCAAGACTGCGCGGTAA KGYLGRFRPRDTLNDRKTAR* -1.994 0.006092 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23137 SFPSSFLPYVLLDRVERNCS 20 SLAY-screened peptide P1487 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTTCCCTTCCAGCTTCTTGCCCTATGTCCTGCTGGACCGTGTCGAGCGGAATTGCTCCTAA SFPSSFLPYVLLDRVERNCS* -1.993 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23138 PNNYSDSFMAHSHLLDEILN 20 SLAY-screened peptide P1488 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATAACTATAGCGATAGTTTCATGGCCCACTCTCATTTGCTGGACGAGATCCTCAATTAA PNNYSDSFMAHSHLLDEILN* -1.992 0.002024 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23139 LSQAADRASSCTNGVPLPSQ 20 SLAY-screened peptide P1489 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCCCAGGCTGCCGATCGGGCTTCCAGTTGTACTAATGGTGTGCCTCTGCCTAGCCAGTAA LSQAADRASSCTNGVPLPSQ* -1.992 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23140 LVDVEFTWLNVSESIILETT 20 SLAY-screened peptide P1490 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGGTCGATGTGGAGTTCACGTGGCTTAATGTTAGTGAGTCCATCATTCTTGAGACCACCTAA LVDVEFTWLNVSESIILETT* -1.992 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23141 LVIQIGLVSWSPRRRSRILRN 21 SLAY-screened peptide P1491 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTGATTCAGATAGGCCTGGTGTCGTGGTCACCCCGGCGCCGGAGTCGAATACTCCGTAAC LVIQIGLVSWSPRRRSRILRN -1.991 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23142 PRTKFTLNVDHASDHGESPL 20 SLAY-screened peptide P1492 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGGACCAAGTTCACTCTCAATGTCGATCATGCGAGCGACCACGGCGAGAGTCCGTTGTAA PRTKFTLNVDHASDHGESPL* -1.99 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23143 TLVNRHVGKADSGSRPHMYA 20 SLAY-screened peptide P1493 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTGGTGAATCGTCATGTTGGCAAGGCTGATAGCGGTAGTCGCCCTCACATGTACGCGTAA TLVNRHVGKADSGSRPHMYA* -1.989 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23144 RARVPLWDHLSNSPAHNDYT 20 SLAY-screened peptide P1494 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCTCGCGTGCCCCTCTGGGATCATCTTTCTAATTCCCCGGCTCATAACGACTATACTTAA RARVPLWDHLSNSPAHNDYT* -1.988 0.000035 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23145 KCSTMSSSRG 10 SLAY-screened peptide P1495 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTGCTCGACCATGTCTAGCTCCCGGGGCTAGAGTCTTTTGTACTTGTAGACTAATAGCTAA KCSTMSSSRG*SLLYL*TNS* -1.988 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23146 VTTTHQR 7 SLAY-screened peptide P1496 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTACCACTACCCACCAGCGCTAGCTTTCTATCAGTAAGCCGATTTATTCTGCGACGGCTTAA VTTTHQR*LSISKPIYSATA* -1.987 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23147 GANYRRENCSQFSSLQAVNR 20 SLAY-screened peptide P1497 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGCTAACTACCGGAGGGAGAATTGTTCTCAGTTTTCTAGTCTTCAGGCTGTGAATCGGTAA GANYRRENCSQFSSLQAVNR* -1.987 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23148 PYSLAPSFPLVQCYDNSRPL 20 SLAY-screened peptide P1498 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTACAGTCTGGCTCCGAGCTTCCCTTTGGTCCAGTGCTATGACAATAGCAGGCCGTTGTAA PYSLAPSFPLVQCYDNSRPL* -1.987 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23149 SYPTGLAFFAVVAIITRTGRN 21 SLAY-screened peptide P1499 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTACCCTACGGGTCTCGCTTTTTTCGCAGTTGTTGCGATTATAACGAGAACCGGCCGTAAC SYPTGLAFFAVVAIITRTGRN -1.986 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23150 LHHPQKAHSAPAR 13 SLAY-screened peptide P1500 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCATCACCCCCAGAAGGCGCATTCGGCTCCCGCTCGCTAGGCCGCTGCGGCCAGCCACTAA LHHPQKAHSAPAR*AAAASH* -1.985 0.001863 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23151 EPFPFALSQPPLLHGQVKAR 20 SLAY-screened peptide P1501 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCCCTTCCCTTTTGCTCTTAGCCAGCCCCCTCTCCTCCACGGTCAGGTTAAGGCGAGGTAA EPFPFALSQPPLLHGQVKAR* -1.985 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23152 KRNKVN 6 SLAY-screened peptide P1502 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCGGAATAAGGTTAATTAGGGTGCCACGCCCGGCGCTTCGAGTCTGGCCACCGCGCTTTAA KRNKVN*GATPGASSLATAL* -1.985 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23153 GKRLSRTLLAMSLVAV 16 SLAY-screened peptide P1503 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCAAGCGGTTGTCGCGCACGCTCCTAGCCATGAGTTTGGTTGCCGTATGAGCACCCGGTAAC GKRLSRTLLAMSLVAV*APGN -1.985 0.006057 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23154 PILSPDRSRCRLLPVQAYGL 20 SLAY-screened peptide P1504 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATTCTTTCCCCCGACCGGAGTAGGTGCCGTTTGCTGCCCGTGCAGGCCTATGGGCTGTAA PILSPDRSRCRLLPVQAYGL* -1.985 0.001959 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23155 SYIVYFLPVRRTPARTLGLLN 21 SLAY-screened peptide P1505 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTACATTGTGTATTTCCTCCCCGTGCGCCGTACACCTGCCCGTACACTCGGGTTGCTTAAC SYIVYFLPVRRTPARTLGLLN -1.984 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23156 YSVY 4 SLAY-screened peptide P1506 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCCGTCTACTAGATTACTGCGTTTAAGTATTTGCCTTACTTTCTGGGGACCCCCCATTAA YSVY*ITAFKYLPYFLGTPH* -1.983 0.000051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23157 HRTRMLFFISARRNSVFIHN 20 SLAY-screened peptide P1507 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCGCACTAGGATGCTTTTTTTCATCTCTGCGAGGAGGAACTCTGTCTTCATCCACAATTAA HRTRMLFFISARRNSVFIHN* -1.983 0.005663 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23158 HILQASTWLDAVNIGIFTRW 20 SLAY-screened peptide P1508 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATTCTGCAGGCCTCCACTTGGCTGGATGCCGTTAACATCGGTATTTTCACCCGTTGGTAA HILQASTWLDAVNIGIFTRW* -1.982 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23159 PILVDHFLHMHKTDTCHKSR 20 SLAY-screened peptide P1509 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATTCTCGTTGATCATTTTCTCCACATGCACAAGACCGACACCTGCCACAAGTCTCGTTAA PILVDHFLHMHKTDTCHKSR* -1.982 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23160 CIDARKCDCVNDRNVCTVFC 20 SLAY-screened peptide P1510 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCATTGACGCCCGTAAGTGTGATTGTGTTAATGACCGGAACGTTTGCACGGTGTTTTGTTAA CIDARKCDCVNDRNVCTVFC* -1.981 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23161 TAHPALASLLY 11 SLAY-screened peptide P1511 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCCCATCCTGCGCTTGCGAGCCTCCTTTATTAGGGCCTTTCCTATACGACGGCCTGCTAA TAHPALASLLY*GLSYTTAC* -1.981 0.000375 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23162 MVCLTYTSKPIVSKPLPN 18 SLAY-screened peptide P1512 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGTTTGTCTGACGTACACCTCGAAGCCTATTGTTTCTAAGCCTCTGCCGAACTAGGACTAA MVCLTYTSKPIVSKPLPN*D* -1.981 0.000366 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23163 SVAQDFFHDFTTAPFCFSII 20 SLAY-screened peptide P1513 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGTTGCTCAGGATTTTTTCCACGACTTCACCACTGCGCCGTTCTGCTTTAGTATTATTTAA SVAQDFFHDFTTAPFCFSII* -1.98 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23164 FQQFYTSGCNTPYYQLIKDY 20 SLAY-screened peptide P1514 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCAGCAGTTCTATACTTCGGGCTGCAACACTCCGTATTATCAGCTGATTAAGGACTACTAA FQQFYTSGCNTPYYQLIKDY* -1.979 0.00016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23165 NHLHKHPFINGRPGAQGTPP 20 SLAY-screened peptide P1515 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCATCTGCATAAGCACCCGTTCATCAACGGCCGGCCCGGTGCGCAGGGCACGCCGCCTTAA NHLHKHPFINGRPGAQGTPP* -1.979 0.000704 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23166 GAMACQCPPYTTSPCLMSNA 20 SLAY-screened peptide P1516 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGCTATGGCTTGTCAGTGCCCCCCCTATACTACTAGTCCCTGCCTTATGTCGAACGCTTAA GAMACQCPPYTTSPCLMSNA* -1.979 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23167 ANKRGNPCQRPNATG 15 SLAY-screened peptide P1517 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTAATAAGCGGGGTAACCCTTGTCAGCGCCCGAATGCGACTGGTTAGGTTTGTCCCCGTTAA ANKRGNPCQRPNATG*VCPR* -1.979 0.000054 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23168 ARREYPEPTNTCSPAVLLPM 20 SLAY-screened peptide P1518 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCGCCGTGAGTATCCCGAGCCTACGAATACGTGTAGTCCCGCTGTCTTGCTTCCCATGTAA ARREYPEPTNTCSPAVLLPM* -1.978 0.000033 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23169 SSSHTCSTANLILQPSAITT 20 SLAY-screened peptide P1519 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAGCTCTCACACGTGCAGTACTGCTAACTTGATTCTGCAGCCCAGTGCCATTACTACGTAA SSSHTCSTANLILQPSAITT* -1.978 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23170 CHPSSPTFPFIIPVGSDAYT 20 SLAY-screened peptide P1520 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACCCTAGTTCGCCTACCTTCCCTTTTATTATCCCTGTGGGTAGCGACGCCTATACCTAA CHPSSPTFPFIIPVGSDAYT* -1.977 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23171 NRLFCGDPKDCLWRESSSYE 20 SLAY-screened peptide P1521 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCGCCTGTTTTGTGGGGACCCCAAGGACTGCCTTTGGCGGGAGAGCTCGTCGTATGAGTAA NRLFCGDPKDCLWRESSSYE* -1.977 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23172 IGVHICDLAFSRMAMRELFC 20 SLAY-screened peptide P1522 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGGTGTCCATATTTGCGATCTTGCCTTCAGTCGCATGGCTATGCGTGAGCTTTTCTGTTAA IGVHICDLAFSRMAMRELFC* -1.977 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23173 RWAEPITPQSSFLTAAHPLS 20 SLAY-screened peptide P1523 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTGGGCCGAGCCGATTACGCCCCAGTCCAGTTTTCTCACGGCTGCCCACCCGCTTTCCTAA RWAEPITPQSSFLTAAHPLS* -1.974 0.001933 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23174 LAFLHVGIGCHVTDPCYSDF 20 SLAY-screened peptide P1524 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCTTTCTTGCACGTTGGCATCGGTTGCCATGTTACGGATCCTTGTTATAGTGATTTCTAA LAFLHVGIGCHVTDPCYSDF* -1.973 0.005717 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23175 RQCNHGNNCGEFLVHCTSFA 20 SLAY-screened peptide P1525 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCAGTGCAATCACGGCAACAATTGCGGTGAGTTCCTTGTGCACTGTACGAGCTTCGCGTAA RQCNHGNNCGEFLVHCTSFA* -1.972 0.000298 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23176 SYIYPH 6 SLAY-screened peptide P1526 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTACATCTATCCCCATTAGTGTTGGCGGCTTCGCTGTATCTACTACGCTCTTAATCATTAA SYIYPH*CWRLRCIYYALNH* -1.971 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23177 YLLPFTVLGPRRRVTPFIRK 20 SLAY-screened peptide P1527 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCTCCTGCCGTTCACGGTGCTTGGGCCTCGCCGGCGTGTTACTCCTTTCATCCGCAAGTAA YLLPFTVLGPRRRVTPFIRK* -1.971 0.002202 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23178 VGTLTRAKAYRVYCCPNRRSN 21 SLAY-screened peptide P1528 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGGCACCCTGACTCGGGCGAAGGCTTATCGGGTCTATTGCTGTCCCAACCGGAGAAGTAAC VGTLTRAKAYRVYCCPNRRSN -1.971 0.000159 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23179 RLCTHPCDRFGDASGRSAVN 20 SLAY-screened peptide P1529 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTTTGCACGCATCCCTGCGACCGTTTTGGCGATGCGTCGGGCCGGTCCGCCGTGAATTAA RLCTHPCDRFGDASGRSAVN* -1.971 0.004502 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23180 STACFDDAGDKFIFRMTLLVN 21 SLAY-screened peptide P1530 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCACTGCTTGTTTTGATGATGCCGGGGATAAATTTATTTTTAGAATGACTCTTTTAGTTAAC STACFDDAGDKFIFRMTLLVN -1.97 0.000395 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23181 HWSPLLLNSFDLDHHYLFYI 20 SLAY-screened peptide P1531 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTGGTCGCCTCTTCTGCTCAATAGTTTCGACCTGGACCATCATTATCTCTTTTATATCTAA HWSPLLLNSFDLDHHYLFYI* -1.97 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23182 SSCAVCAWQYRTCSDCSVTL 20 SLAY-screened peptide P1532 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTCCTGTGCGGTCTGCGCTTGGCAGTACCGTACCTGTTCCGACTGCAGCGTCACCCTCTAA SSCAVCAWQYRTCSDCSVTL* -1.97 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23183 DRPTVFPCYLTQVLTSYVVA 20 SLAY-screened peptide P1533 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCGCCCCACCGTCTTCCCCTGCTACCTTACTCAGGTTCTCACCTCGTATGTCGTTGCGTAA DRPTVFPCYLTQVLTSYVVA* -1.97 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23184 TDHGPNHQPF 10 SLAY-screened peptide P1534 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGACCATGGTCCCAACCATCAGCCCTTTTAGCTTGGCGTTACTGCTAATCCCTATGACTAA TDHGPNHQPF*LGVTANPYD* -1.969 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23185 GARLVLFYPSTTKDQNAPFI 20 SLAY-screened peptide P1535 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGGCTCGCCTCGTGCTTTTTTATCCCAGTACGACCAAGGACCAGAACGCGCCCTTTATTTAA GARLVLFYPSTTKDQNAPFI* -1.968 0.000292 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23186 RPDYALYHKPSDRANWVHYW 20 SLAY-screened peptide P1536 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCTGACTACGCGCTCTATCATAAGCCTTCTGATCGCGCTAATTGGGTCCATTACTGGTAA RPDYALYHKPSDRANWVHYW* -1.968 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23187 HILEFQASHMYVWSNAGSSY 20 SLAY-screened peptide P1537 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATTCTGGAGTTTCAGGCGAGCCACATGTATGTTTGGTCTAACGCCGGTAGTAGTTATTAA HILEFQASHMYVWSNAGSSY* -1.967 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23188 PSTSSGYGFDCRSLFSFNWT 20 SLAY-screened peptide P1538 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCCACCTCCTCCGGTTATGGGTTTGATTGCAGGAGCCTTTTTAGTTTTAATTGGACGTAA PSTSSGYGFDCRSLFSFNWT* -1.967 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23189 TAVPSPRVTVDKIPTTHVIR 20 SLAY-screened peptide P1539 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCCGTTCCTTCCCCTAGGGTTACTGTCGACAAGATTCCTACCACCCATGTCATCCGCTAA TAVPSPRVTVDKIPTTHVIR* -1.967 0.000074 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23190 TLVPHYSQDTMRCTLFSHLI 20 SLAY-screened peptide P1540 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTTGGTCCCCCATTATTCTCAGGACACCATGAGGTGCACCCTCTTTAGTCACTTGATTTAA TLVPHYSQDTMRCTLFSHLI* -1.967 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23191 WSYASLTAIPFAVL 14 SLAY-screened peptide P1541 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGAGCTACGCGTCGTTGACCGCCATTCCGTTTGCAGTACTGTGACGACTAGCTAACTGAGTA WSYASLTAIPFAVL*RLAN*V -1.966 0.005069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23192 WPVHVNSPTCYEVPLNRQLS 20 SLAY-screened peptide P1542 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCGGTCCACGTCAATAGTCCGACGTGCTACGAGGTCCCCCTTAACAGGCAGCTGAGTTAA WPVHVNSPTCYEVPLNRQLS* -1.966 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23193 LPAGTIAFQYENSSYIVILY 20 SLAY-screened peptide P1543 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCCGCGGGCACCATCGCGTTCCAGTATGAGAACTCCTCCTATATTGTTATTTTGTATTAA LPAGTIAFQYENSSYIVILY* -1.966 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23194 TAPRQNRSVSLR 12 SLAY-screened peptide P1544 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCCCCCCGGCAGAACAGGAGCGTCTCTCTCCGTTAGGTTAACCTGCCGGCTCCGAACTAA TAPRQNRSVSLR*VNLPAPN* -1.966 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23195 FNSLPYRQLATFCIVVPRSV 20 SLAY-screened peptide P1545 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAACTCTCTTCCCTACCGTCAGCTGGCGACTTTTTGCATCGTGGTTCCGCGCTCTGTGTAA FNSLPYRQLATFCIVVPRSV* -1.965 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23196 PSFF 4 SLAY-screened peptide P1546 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCTTTTTTTAGACTTACGGGGCGTGCAATAATGACCATAGCTCCCTTCTGGTCCCCTAA PSFF*TYGACNNDHSSLLVP* -1.965 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23197 SIYHDTPRYGTASYALLGLS 20 SLAY-screened peptide P1547 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCATTTATCACGACACTCCGAGGTATGGGACGGCTTCTTACGCGTTGCTCGGCTTGAGTTAA SIYHDTPRYGTASYALLGLS* -1.965 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23198 FYEGRQSMPSCYYPIVSLLT 20 SLAY-screened peptide P1548 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTACGAGGGTCGTCAGAGCATGCCCAGCTGTTATTACCCTATTGTCAGCCTCCTTACGTAA FYEGRQSMPSCYYPIVSLLT* -1.964 0.002233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23199 PPTSLPYLCSPLNPVYLQPL 20 SLAY-screened peptide P1549 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTACCTCTCTGCCCTACCTTTGCAGTCCTCTGAATCCGGTCTATCTCCAGCCCCTTTAA PPTSLPYLCSPLNPVYLQPL* -1.964 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23200 SYTFRARTAGRDCSRCGPPL 20 SLAY-screened peptide P1550 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTATACTTTTCGTGCTAGGACTGCTGGTCGGGACTGTTCCCGCTGCGGCCCTCCTCTGTAA SYTFRARTAGRDCSRCGPPL* -1.963 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23201 AASKRKPPHSCGVAGSCACY 20 SLAY-screened peptide P1551 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCTAGCAAGCGCAAGCCTCCGCATTCTTGTGGTGTTGCTGGCTCTTGCGCTTGTTACTAA AASKRKPPHSCGVAGSCACY* -1.963 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23202 SALLTHARAYANRVAAATEIN 21 SLAY-screened peptide P1552 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGCTCTTCTTACTCATGCTCGTGCGTACGCCAATCGCGTTGCCGCTGCCACTGAGATTAAC SALLTHARAYANRVAAATEIN -1.963 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23203 SYSTMFLSLLFALETANMKC 20 SLAY-screened peptide P1553 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTATAGTACCATGTTCCTGTCGTTGCTTTTTGCGCTGGAGACCGCTAACATGAAGTGTTAA SYSTMFLSLLFALETANMKC* -1.962 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23204 TRHIPSIKQCAVFHSRLPGY 20 SLAY-screened peptide P1554 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAGGCACATCCCCTCGATCAAGCAGTGTGCGGTTTTTCACAGCAGGCTCCCCGGTTATTAA TRHIPSIKQCAVFHSRLPGY* -1.961 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23205 CSSAGDFFTNPHNINPKSII 20 SLAY-screened peptide P1555 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTCCTCGGCCGGTGATTTTTTCACTAATCCGCATAATATCAACCCCAAGAGCATCATTTAA CSSAGDFFTNPHNINPKSII* -1.961 0.000065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23206 PRTCS 5 SLAY-screened peptide P1556 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTACGTGTTCTTAGAATCTGCGGTCTAGCACTAACGCTTTCGCTATTATTCATATTTAA PRTCS*NLRSSTNAFAIIHI* -1.961 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23207 TFLIILLLLSPTSWSLLPPIN 21 SLAY-screened peptide P1557 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTTTCTTATCATACTGCTACTGCTGTCTCCTACATCATGGTCACTTCTACCGCCAATTAAC TFLIILLLLSPTSWSLLPPIN -1.961 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23208 RPSAPIFCLSIHKDVKKQLC 20 SLAY-screened peptide P1558 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCCAGCGCCCCTATCTTTTGTTTGTCCATTCATAAGGATGTCAAGAAGCAGCTTTGCTAA RPSAPIFCLSIHKDVKKQLC* -1.961 0.00011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23209 SDIHAPKRILQTSNTL 16 SLAY-screened peptide P1559 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGATATTCACGCTCCCAAGAGGATCCTTCAGACGAGTAACACCCTGTAGTACAATTTTTAC SDIHAPKRILQTSNTL*YNFY -1.96 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23210 VKPRPLHDRP 10 SLAY-screened peptide P1560 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTAAACCTCGGCCATTGCATGATCGACCATAACTCGCACGGCCACAACACCAAGTACTAACT VKPRPLHDRP*LARPQHQVLT -1.96 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23211 NGCTSHNYFSRVQDPLQPIR 20 SLAY-screened peptide P1561 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGGCTGCACCTCCCACAACTACTTTTCGCGTGTGCAGGACCCCTTGCAGCCTATCCGCTAA NGCTSHNYFSRVQDPLQPIR* -1.96 0.001464 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23212 HSTRGACVLTYSPYGTHINP 20 SLAY-screened peptide P1562 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTCGACGCGCGGTGCTTGTGTTCTCACTTACAGCCCGTACGGTACCCATATCAATCCGTAA HSTRGACVLTYSPYGTHINP* -1.959 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23213 PGFWSFTPSDYDCHWTHFYL 20 SLAY-screened peptide P1563 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGGTTTTTGGAGCTTCACCCCCTCGGATTATGATTGCCACTGGACGCATTTCTACCTTTAA PGFWSFTPSDYDCHWTHFYL* -1.959 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23214 TVTAPWNPPITNKLLTFPTG 20 SLAY-screened peptide P1564 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTGACCGCCCCCTGGAATCCCCCTATTACGAATAAGCTTCTCACCTTCCCCACGGGCTAA TVTAPWNPPITNKLLTFPTG* -1.958 0.011425 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23215 PLQASHLSRSPFTCLHP 17 SLAY-screened peptide P1565 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTGCAGGCTAGTCATCTCAGCAGGTCCCCCTTTACTTGCCTCCACCCTTAGTTTCATTAA PLQASHLSRSPFTCLHP*FH* -1.958 0.004853 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23216 HPKYLSRTTHGSISHQYPTA 20 SLAY-screened peptide P1566 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTAAGTACCTTTCTCGGACTACTCACGGTTCTATCTCCCATCAGTACCCTACTGCCTAA HPKYLSRTTHGSISHQYPTA* -1.958 0.000159 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23217 GLKNAANESRDPMEYTLSCH 20 SLAY-screened peptide P1567 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCTTAAGAATGCTGCGAATGAGAGTAGGGACCCTATGGAGTATACTCTCTCGTGCCATTAA GLKNAANESRDPMEYTLSCH* -1.958 0.002337 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23218 RYLSSFWRSLARFWKRYNNC 20 SLAY-screened peptide P1568 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTACCTTTCCAGTTTTTGGCGCTCTTTGGCCCGGTTTTGGAAGCGTTATAATAACTGCTAA RYLSSFWRSLARFWKRYNNC* -1.957 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23219 RPIRLNPRCYDRPNCSRHWS 20 SLAY-screened peptide P1569 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCCATCCGGCTTAACCCTAGGTGCTACGATAGGCCTAATTGTAGCCGCCACTGGTCCTAA RPIRLNPRCYDRPNCSRHWS* -1.957 0.0092 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23220 RWTSHAHRRYIPINP 15 SLAY-screened peptide P1570 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGGACTTCCCATGCTCACCGTCGTTATATTCCCATCAACCCGTAGATTTATGTCTTTTAA RWTSHAHRRYIPINP*IYVF* -1.957 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23221 HVSRYRALL 9 SLAY-screened peptide P1571 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGTCTCCCGGTATCGTGCCCTCTTGTAGCCCGGTAGTTACACGTCCGTGTTTCGGCCCTAA HVSRYRALL*PGSYTSVFRP* -1.957 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23222 STPLALLRTCSTGNHQSFRQ 20 SLAY-screened peptide P1572 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCACTCCTCTCGCTTTGTTGCGTACCTGTAGCACGGGGAATCACCAGTCGTTTCGGCAGTAA STPLALLRTCSTGNHQSFRQ* -1.956 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23223 YVPMPVSLRTRRRGRPI 17 SLAY-screened peptide P1573 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGTTCCTATGCCCGTTTCTCTCCGTACGAGGAGGCGCGGTCGGCCTATCTAGGCTCCTTAA YVPMPVSLRTRRRGRPI*AP* -1.955 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23224 PPGSLDQVNPLSHCMCYIFS 20 SLAY-screened peptide P1574 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTGGCTCTCTCGACCAGGTCAACCCTTTGTCTCATTGTATGTGCTATATTTTTTCCTAA PPGSLDQVNPLSHCMCYIFS* -1.955 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23225 WLLHKSVPLRAVVTVSHNMF 20 SLAY-screened peptide P1575 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCTGCTTCATAAGAGCGTGCCGCTCAGGGCTGTCGTTACTGTGTCGCACAATATGTTCTAA WLLHKSVPLRAVVTVSHNMF* -1.955 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23226 PRICPLTINTHLAF 14 SLAY-screened peptide P1576 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGCATTTGTCCTCTCACCATCAACACGCATCTTGCTTTTTGAATACTTAGCTTGGGTAAC PRICPLTINTHLAF*ILSLGN -1.955 0.000095 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23227 PAATSGFKPMSHLLPEICTL 20 SLAY-screened peptide P1577 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCTGCGACGAGCGGTTTTAAGCCTATGAGCCATCTCCTCCCCGAGATTTGCACCCTGTAA PAATSGFKPMSHLLPEICTL* -1.954 0.00003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23228 PPDWG 5 SLAY-screened peptide P1578 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTGATTGGGGCTAGTCTGCGATCCTGTTTGGTCTCCATGATACTCATGCTCCCCACTAA PPDWG*SAILFGLHDTHAPH* -1.953 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23229 YPIWYMHPGGPQAYSDIKYM 20 SLAY-screened peptide P1579 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCCATTTGGTATATGCACCCGGGGGGCCCGCAGGCCTATAGTGACATTAAGTATATGTAA YPIWYMHPGGPQAYSDIKYM* -1.952 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23230 QGACLCPCMTHGYMYDLILL 20 SLAY-screened peptide P1580 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGGCGCGTGCCTTTGCCCGTGCATGACCCACGGCTACATGTATGACTTGATCCTTCTCTAA QGACLCPCMTHGYMYDLILL* -1.952 0.00529 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23231 PFHSYHNTIYAS 12 SLAY-screened peptide P1581 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTCCACAGCTATCACAATACTATTTATGCCTCGTAGACGATGTCCACCACGCGTGATTAA PFHSYHNTIYAS*TMSTTRD* -1.952 0.000913 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23232 NECADVPRRRKPLCCVFDIA 20 SLAY-screened peptide P1582 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGAGTGTGCTGATGTCCCCCGTCGGCGTAAGCCTTTGTGTTGTGTCTTCGATATCGCCTAA NECADVPRRRKPLCCVFDIA* -1.952 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23233 APRNCICYSRMCTSDFFTTI 20 SLAY-screened peptide P1583 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCTCGGAATTGTATCTGCTATAGTCGCATGTGTACCAGTGACTTCTTTACCACCATTTAA APRNCICYSRMCTSDFFTTI* -1.951 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23234 VRVYLCTKANFPMYVSIHPP 20 SLAY-screened peptide P1584 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGAGGGTGTACCTTTGCACGAAGGCCAATTTTCCTATGTATGTCAGCATCCATCCCCCCTAA VRVYLCTKANFPMYVSIHPP* -1.951 0.002189 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23235 LDTAVPYRIGDAVHAT 16 SLAY-screened peptide P1585 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGATACTGCTGTCCCTTACCGTATCGGCGACGCTGTTCACGCCACCTGATTTAAACTAACT LDTAVPYRIGDAVHAT*FKLT -1.951 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23236 APALLHPVQSDRTASHMNAW 20 SLAY-screened peptide P1586 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCCGCCCTTCTGCATCCGGTCCAGAGTGACCGTACTGCTTCGCACATGAATGCTTGGTAA APALLHPVQSDRTASHMNAW* -1.951 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23237 PHPP 4 SLAY-screened peptide P1587 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCATCCCCCCTAGAACGATTGGATTACGCACAATAGCTATATCATTGTGCCTCATGCGTAA PHPP*NDWITHNSYIIVPHA* -1.95 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23238 RLAMEQPLWPCMILMHNDVC 20 SLAY-screened peptide P1588 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCTTGCTATGGAGCAGCCGCTGTGGCCGTGCATGATCCTGATGCATAACGATGTTTGTTAA RLAMEQPLWPCMILMHNDVC* -1.95 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23239 LNTSFYLIGISISIGTSRSY 20 SLAY-screened peptide P1589 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAATACTAGTTTCTATCTTATCGGTATCTCTATCAGTATCGGGACGTCGCGTTCCTATTAA LNTSFYLIGISISIGTSRSY* -1.95 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23240 TWMNSFPLTYS 11 SLAY-screened peptide P1590 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGGATGAACTCTTTTCCTCTCACTTATTCCTAGTGTTCCAATTCCCCTTACAGGGCCTAA TWMNSFPLTYS*CSNSPYRA* -1.949 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23241 QPDAEVPSPMPLCSNWRYLV 20 SLAY-screened peptide P1591 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCGGATGCGGAGGTTCCTTCCCCCATGCCCCTTTGCTCTAATTGGCGTTACCTCGTCTAA QPDAEVPSPMPLCSNWRYLV* -1.949 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23242 PSVSNWLCRYNTTVADKGL 19 SLAY-screened peptide P1592 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGTGTGAGTAACTGGCTTTGCCGGTATAACACCACCGTGGCGGACAAGGGTCTTTAGTAA PSVSNWLCRYNTTVADKGL** -1.949 0.000831 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23243 GTPMSCQIPCCGFGFRFEYL 20 SLAY-screened peptide P1593 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTACGCCGATGAGTTGCCAGATTCCCTGCTGTGGTTTCGGTTTCCGCTTCGAGTATCTGTAA GTPMSCQIPCCGFGFRFEYL* -1.948 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23244 ARFALHTCSHALAFASSS 18 SLAY-screened peptide P1594 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCGGTTCGCCCTTCACACTTGCTCTCATGCGCTGGCTTTCGCGTCTTCGTCTTAGACCTAA ARFALHTCSHALAFASSS*T* -1.948 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23245 VGGDSYHLQRRAHLCEPLQRL 21 SLAY-screened peptide P1595 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGGGGGGGACTCTTATCACCTGCAACGTCGTGCGCATTTATGCGAACCGCTCCAACGATTA VGGDSYHLQRRAHLCEPLQRL -1.948 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23246 PWVYRCVRPLNYPIASSTTCN 21 SLAY-screened peptide P1596 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGGGTTTATCGTTGTGTTCGTCCTCTCAATTATCCGATTGCTTCAAGTACAACGTGTAAC PWVYRCVRPLNYPIASSTTCN -1.947 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23247 EMIKFHDPFQASWAWTRKDE 20 SLAY-screened peptide P1597 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGATGATTAAGTTCCACGATCCGTTCCAGGCCTCTTGGGCTTGGACCCGCAAGGATGAGTAA EMIKFHDPFQASWAWTRKDE* -1.946 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23248 YYTLGTSITNGVSISTRSNY 20 SLAY-screened peptide P1598 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTACACGTTGGGTACCAGCATTACTAACGGGGTCAGTATTAGTACTCGTAGTAATTACTAA YYTLGTSITNGVSISTRSNY* -1.945 0.000471 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23249 ILLASIITPTTWIIGENSNF 20 SLAY-screened peptide P1599 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTTGCTGGCCAGCATCATCACGCCGACTACTTGGATCATTGGCGAGAATTCTAACTTCTAA ILLASIITPTTWIIGENSNF* -1.945 0.000107 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23250 HSIHIRVVSPWICIHLALSL 20 SLAY-screened peptide P1600 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCGATCCATATTCGTGTGGTCTCGCCTTGGATTTGCATCCACCTTGCGCTCTCTCTTTAA HSIHIRVVSPWICIHLALSL* -1.944 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23251 IGNY 4 SLAY-screened peptide P1601 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGGTAACTATTAGTTCGTCTTTGCGTATCGGAATCATACTGTTTATTGTCGCAGGCACTAA IGNY*FVFAYRNHTVYCRRH* -1.943 0.000763 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23252 LELTGFEFFSDVTLD 15 SLAY-screened peptide P1602 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGAGCTTACTGGTTTCGAGTTTTTCTCTGACGTTACTCTCGATTAGCCGAATTAGTGCTAA LELTGFEFFSDVTLD*PN*C* -1.942 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23253 HIWLPIPSDDVS 12 SLAY-screened peptide P1603 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACATTTGGCTGCCGATCCCTAGCGATGATGTCAGCTAGAGGTTTCACCCTACTTCTATGTAA HIWLPIPSDDVS*RFHPTSM* -1.94 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23254 GRPVVACRVSIDPTSNRCHT 20 SLAY-screened peptide P1604 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCGCCCTGTGGTTGCGTGCCGTGTGTCTATTGATCCCACGTCGAATCGTTGTCATACCTAA GRPVVACRVSIDPTSNRCHT* -1.94 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23255 KTCSSQSTQVPCTKFKSYGA 20 SLAY-screened peptide P1605 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGACGTGTTCTTCTCAGAGTACGCAGGTCCCGTGCACCAAGTTCAAGTCTTACGGCGCCTAA KTCSSQSTQVPCTKFKSYGA* -1.94 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23256 PLCVTDLHKPYFGTSVNTIL 20 SLAY-screened peptide P1606 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGTGTGTCACTGATCTCCACAAGCCGTATTTTGGTACCTCTGTTAACACTATTCTTTAA PLCVTDLHKPYFGTSVNTIL* -1.94 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23257 LIHHIYNASTFCIYTFSSID 20 SLAY-screened peptide P1607 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATTCATCATATCTATAACGCTTCGACGTTTTGTATCTATACGTTTAGTAGCATTGACTAA LIHHIYNASTFCIYTFSSID* -1.939 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23258 LYGHNRRSRDPWKNTKHGTA 20 SLAY-screened peptide P1608 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTATGGCCATAATAGGCGCAGCCGCGATCCGTGGAAGAATACTAAGCATGGTACGGCGTAA LYGHNRRSRDPWKNTKHGTA* -1.938 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23259 AA 2 SLAY-screened peptide P1609 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGCCTAGGGTTGCGATAACCGGGTTTACCCTGACGATACGTTCCCTTTTTAGTCCCCTTAA AA*GCDNRVYPDDTFPF*SP* -1.938 0.002494 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23260 SSWYFIVAHIYLITR 15 SLAY-screened peptide P1610 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAGTTGGTATTTCATTGTCGCTCATATTTACCTCATCACGAGGTAGTTTGTTATCCCCTAA SSWYFIVAHIYLITR*FVIP* -1.937 0.000568 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23261 FSVHSYNNYEPHVSTDSIAT 20 SLAY-screened peptide P1611 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTCCGTGCATTCTTACAATAACTACGAGCCTCACGTCTCTACTGACAGTATTGCTACCTAA FSVHSYNNYEPHVSTDSIAT* -1.937 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23262 PGPNPTIRAPPPDTPFVRFL 20 SLAY-screened peptide P1612 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGGCCCAACCCTACCATTCGCGCGCCTCCTCCGGATACGCCCTTCGTTCGGTTCCTCTAA PGPNPTIRAPPPDTPFVRFL* -1.937 0.000135 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23263 PDYIDVPTGSSSARKHQHML 20 SLAY-screened peptide P1613 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGATTATATTGACGTGCCTACTGGCTCGTCTTCTGCGCGTAAGCACCAGCACATGCTTTAA PDYIDVPTGSSSARKHQHML* -1.936 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23264 PFPLNVPFYSNWNVIAYNPQ 20 SLAY-screened peptide P1614 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTTTCCGTTGAACGTCCCTTTTTATAGCAATTGGAATGTCATTGCCTACAATCCCCAGTAA PFPLNVPFYSNWNVIAYNPQ* -1.936 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23265 PDTLPRVTPPSAHTSESRVS 20 SLAY-screened peptide P1615 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGACACGCTCCCGCGGGTGACGCCTCCTTCCGCCCACACTTCTGAGAGCCGGGTTTCCTAA PDTLPRVTPPSAHTSESRVS* -1.935 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23266 LLRKPMPVPPKKTDPYYKLT 20 SLAY-screened peptide P1616 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCTGCGCAAGCCTATGCCTGTTCCGCCTAAGAAGACTGATCCTTATTACAAGCTCACCTAA LLRKPMPVPPKKTDPYYKLT* -1.935 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23267 SIGIRARLVTNYRADLLDY 19 SLAY-screened peptide P1617 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCATTGGTATCCGCGCCAGGCTGGTTACTAATTACCGCGCCGACCTTTTGGATTATTAGTAA SIGIRARLVTNYRADLLDY** -1.935 0.00055 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23268 SVVFRYATSTLHPDMLFP 18 SLAY-screened peptide P1618 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGTGGTTTTTCGGTACGCCACGAGTACTCTTCACCCCGACATGCTGTTTCCTTAACTGAGT SVVFRYATSTLHPDMLFP*LS -1.935 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23269 CDDTDLSRFMLFVRHTKKSL 20 SLAY-screened peptide P1619 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGATGATACCGATCTTTCTCGCTTTATGTTGTTCGTTCGCCACACGAAGAAGAGTCTTTAA CDDTDLSRFMLFVRHTKKSL* -1.935 0.000056 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23270 LSVNTPPSELFRVYRMDASM 20 SLAY-screened peptide P1620 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAGCGTCAACACTCCCCCGAGTGAGTTGTTTCGCGTTTATCGCATGGACGCTTCGATGTAA LSVNTPPSELFRVYRMDASM* -1.934 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23271 HTYTHVLTYTNSSSNPKTNA 20 SLAY-screened peptide P1621 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACCTACACCCATGTCCTTACGTATACGAATTCCTCCTCTAATCCGAAGACCAATGCCTAA HTYTHVLTYTNSSSNPKTNA* -1.934 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23272 CQLTMNVLNLLLRRFVKSAK 20 SLAY-screened peptide P1622 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCAGCTGACGATGAATGTGCTGAACCTCCTGCTCCGGCGGTTTGTCAAGAGCGCCAAGTAA CQLTMNVLNLLLRRFVKSAK* -1.933 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23273 ATIYAHYRS 9 SLAY-screened peptide P1623 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACCATCTATGCCCATTATAGGTCCTAGTTTCATTGTGGTAACTCCCATGGTTATAATTAA ATIYAHYRS*FHCGNSHGYN* -1.933 0.000446 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23274 PHTNADIVVRTPHSAPELGL 20 SLAY-screened peptide P1624 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCATACTAACGCGGACATTGTTGTGCGCACTCCGCACAGTGCGCCTGAGCTGGGCCTCTAA PHTNADIVVRTPHSAPELGL* -1.933 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23275 GNIKPMRPHVHRVDPCAYYH 20 SLAY-screened peptide P1625 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTAACATCAAGCCCATGAGGCCCCATGTGCATCGCGTCGACCCTTGCGCGTATTATCACTAA GNIKPMRPHVHRVDPCAYYH* -1.932 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23276 AGSSQTFAMKQASCSECH 18 SLAY-screened peptide P1626 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGGTTCTTCCCAGACCTTTGCCATGAAGCAGGCGAGTTGCTCTGAGTGTCATTAGAGCTAA AGSSQTFAMKQASCSECH*S* -1.932 0.004969 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23277 SMGSHDAPNYPRGTAFIILL 20 SLAY-screened peptide P1627 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCATGGGGAGTCACGACGCGCCTAACTATCCCAGGGGGACTGCTTTTATCATCCTCCTGTAA SMGSHDAPNYPRGTAFIILL* -1.932 0.0004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23278 HLRYLERQHTSILHSSSPSD 20 SLAY-screened peptide P1628 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTTGCGTTACCTTGAGCGGCAGCATACGTCGATTCTCCACAGCTCGAGCCCCTCGGACTAA HLRYLERQHTSILHSSSPSD* -1.931 0.025526 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23279 SAYDDAWIMDNQIDLNRCDI 20 SLAY-screened peptide P1629 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGCCTATGATGATGCGTGGATCATGGACAATCAGATCGATCTTAATCGTTGTGATATCTAA SAYDDAWIMDNQIDLNRCDI* -1.931 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23280 PCLAAVGVRTDVFTNRVCTQ 20 SLAY-screened peptide P1630 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCCTCGCGGCGGTTGGTGTGAGGACTGATGTTTTTACGAACCGCGTTTGCACCCAGTAA PCLAAVGVRTDVFTNRVCTQ* -1.931 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23281 PPLHLYIILLWPVILRMRLN 20 SLAY-screened peptide P1631 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTCTGCACCTTTATATCATTCTGCTATGGCCGGTAATATTGCGGATGCGTCTTAACTGA PPLHLYIILLWPVILRMRLN* -1.93 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23282 CPTPCMRLLCLLVPRQSHLI 20 SLAY-screened peptide P1632 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCCACTCCCTGCATGCGCCTCCTCTGTCTGCTCGTCCCGCGCCAGTCCCATCTCATTTAA CPTPCMRLLCLLVPRQSHLI* -1.93 0.000063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23283 AQTHETSCQNSIINRF 16 SLAY-screened peptide P1633 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCAGACTCACGAGACCTCCTGCCAGAATTCTATCATTAACCGGTTCTAGCACGGGTAGTAA AQTHETSCQNSIINRF*HG** -1.929 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23284 DTGRPNRHIN 10 SLAY-screened peptide P1634 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACACGGGCCGCCCCAACCGGCATATCAATTAGATCCTCCTCTAGCTTGCCATTTACTAGTAA DTGRPNRHIN*ILL*LAIY** -1.929 0.000053 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23285 TWVMIPTLLAHTPCTGAFNI 20 SLAY-screened peptide P1635 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGGGTCATGATCCCCACGCTTCTTGCTCATACTCCTTGCACTGGTGCGTTTAACATTTAA TWVMIPTLLAHTPCTGAFNI* -1.929 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23286 GSARTAPNNSNNHQSCPVKF 20 SLAY-screened peptide P1636 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCAGCGCTCGTACGGCCCCGAATAACTCTAATAATCATCAGAGTTGTCCCGTTAAGTTCTAA GSARTAPNNSNNHQSCPVKF* -1.929 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23287 LPVAGLP 7 SLAY-screened peptide P1637 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCTGTGGCCGGTCTGCCCTAGCCCATCTACTCCTAGTCTTGTATTCCTTCTTAGTCGTAA LPVAGLP*PIYS*SCIPS*S* -1.928 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23288 SSFYLVTRMSFMSSHLYNKL 20 SLAY-screened peptide P1638 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTCTTTCTATCTCGTTACGCGTATGTCCTTCATGTCCAGCCATCTTTATAATAAGCTTTAA SSFYLVTRMSFMSSHLYNKL* -1.927 0.000067 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23289 VHYCHHRVNYGHRVIR 16 SLAY-screened peptide P1639 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCATTATTGTCACCATCGCGTTAATTACGGCCATCGTGTCATTCGTTAGCCCGTTCCCTAA VHYCHHRVNYGHRVIR*PVP* -1.927 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23290 CHDGEMPPVQ 10 SLAY-screened peptide P1640 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACGATGGTGAGATGCCGCCCGTTCAGTAGGTTAACGATGGCTGGCGTTAGATTATGTAA CHDGEMPPVQ*VNDGWR*IM* -1.927 0.002701 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23291 HQPSNRPF 8 SLAY-screened peptide P1641 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCAGCCGTCGAACCGTCCTTTTTAGCTTTGTAACCGTTACTAGTCGAACGTCAGCAACTAA HQPSNRPF*LCNRY*SNVSN* -1.927 0.000272 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23292 TVCREPVCYNYIRYHYFHLI 20 SLAY-screened peptide P1642 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGTTTGTCGTGAGCCCGTGTGTTATAATTACATCAGGTATCACTACTTTCACCTTATCTAA TVCREPVCYNYIRYHYFHLI* -1.927 0.000032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23293 GPPAASRPRLRDAPFDF 17 SLAY-screened peptide P1643 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCCCCCTGCCGCTTCTCGTCCCAGGCTTAGGGACGCTCCTTTCGACTTCTAGCGGCTTTAA GPPAASRPRLRDAPFDF*RL* -1.926 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23294 SVPYSPNTSTTACWLLPSIG 20 SLAY-screened peptide P1644 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGTGCCTTATTCCCCGAACACCAGTACCACCGCCTGCTGGTTGCTTCCTTCTATTGGTTAA SVPYSPNTSTTACWLLPSIG* -1.926 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23295 LIVKQSLSNYSTTFSTTGPSN 21 SLAY-screened peptide P1645 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGATTGTCAAGCAGTCGCTCTCTAACTATAGTACTACCTTCAGTACAACAGGTCCATCTAAC LIVKQSLSNYSTTFSTTGPSN -1.926 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23296 WHRYYSWLKRYWTYWKYGHF 20 SLAY-screened peptide P1646 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCACAGGTATTATAGCTGGCTCAAGCGTTATTGGACTTACTGGAAGTATGGTCATTTTTAA WHRYYSWLKRYWTYWKYGHF* -1.926 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23297 RLRSFRRYSCHR 12 SLAY-screened peptide P1647 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCTGAGGTCCTTTCGCCGCTATTCCTGCCACCGGTAGATGGTTCGGCTTGATATGTATTAA RLRSFRRYSCHR*MVRLDMY* -1.925 0.002233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23298 AEIPCLMRYWHPRSLPVFGA 20 SLAY-screened peptide P1648 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGAGATCCCCTGCCTCATGCGGTACTGGCACCCGCGTTCGTTGCCGGTTTTCGGCGCTTAA AEIPCLMRYWHPRSLPVFGA* -1.925 0.000051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23299 RLSTAPRWSCLFCVMLNHTY 20 SLAY-screened peptide P1649 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTTAGTACGGCTCCGCGTTGGAGTTGTCTCTTCTGCGTCATGTTGAATCACACCTATTAA RLSTAPRWSCLFCVMLNHTY* -1.925 0.004099 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23300 PLSFTYLLAAPPSLYCGMYY 20 SLAY-screened peptide P1650 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTGTCTTTTACTTATCTCCTCGCTGCTCCTCCGTCTCTTTATTGCGGCATGTATTATTAA PLSFTYLLAAPPSLYCGMYY* -1.925 0.005837 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23301 APRTDHRSHNDLANAKMIAP 20 SLAY-screened peptide P1651 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCTCGCACTGATCACCGGAGTCACAACGACCTCGCGAACGCTAAGATGATCGCCCCCTAA APRTDHRSHNDLANAKMIAP* -1.925 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23302 ICFTMSIRCTPGFLCSTIGP 20 SLAY-screened peptide P1652 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTGCTTTACCATGTCCATTCGTTGCACTCCGGGTTTCCTGTGTTCTACGATTGGCCCTTAA ICFTMSIRCTPGFLCSTIGP* -1.923 0.000106 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23303 LFHSST 6 SLAY-screened peptide P1653 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTTTCATAGCTCCACGTAGGTTCGTAAGTATAGTGCTTTTTGGGCGTGCCTCAGTCACTAA LFHSST*VRKYSAFWACLSH* -1.923 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23304 TGIRLFLRLRAILRRIA 17 SLAY-screened peptide P1654 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACAGGAATTCGATTGTTTTTACGATTACGAGCAATATTACGCAGAATTGCATGAGTCATTAAC TGIRLFLRLRAILRRIA*VIN -1.922 0.015523 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23305 RRTPNGS 7 SLAY-screened peptide P1655 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGTACGCCGAACGGCTCCTAGGTCCGGGACCTTACGAGCAGCACCCAGCCGGCTGTGTAA RRTPNGS*VRDLTSSTQPAV* -1.922 0.000166 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23306 PLWPPSIPDIFHSITG 16 SLAY-screened peptide P1656 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCTGGCCTCCGTCCATTCCTGATATTTTTCACAGTATCACGGGCTAGCCGACGTGTTAA PLWPPSIPDIFHSITG*PTC* -1.921 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23307 SIGSVDFIAAMPHATPHWSG 20 SLAY-screened peptide P1657 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTATTGGTTCGGTGGATTTCATTGCGGCGATGCCTCATGCTACCCCCCATTGGTCCGGCTAA SIGSVDFIAAMPHATPHWSG* -1.921 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23308 INRYIIFAICYPRRKWARAD 20 SLAY-screened peptide P1658 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAACCGGTACATCATCTTCGCTATTTGTTATCCGCGCCGCAAGTGGGCTAGGGCTGATTAA INRYIIFAICYPRRKWARAD* -1.921 0.000053 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23309 YSFAGHNPEYLALG 14 SLAY-screened peptide P1659 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCGTTTGCTGGGCACAATCCCGAGTACCTCGCGCTTGGCTAGCTGTCCATTAAGGTCTAA YSFAGHNPEYLALG*LSIKV* -1.921 0.000091 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23310 CNYVLDLVHAHMPNPARIRT 20 SLAY-screened peptide P1660 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAACTATGTTCTTGATCTTGTTCATGCCCATATGCCCAACCCCGCCCGTATCCGCACTTAA CNYVLDLVHAHMPNPARIRT* -1.92 0.006176 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23311 FYLFGFFLVLDLRNKILFSIN 21 SLAY-screened peptide P1661 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTACCTGTTCGGGTTTTTCCTTGTTCTCGACCTCCGTAACAAGATACTATTCTCCATTAAC FYLFGFFLVLDLRNKILFSIN -1.92 0.00118 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23312 PQLTRPEPHISAKGTAAAAP 20 SLAY-screened peptide P1662 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCAGCTCACGCGTCCGGAGCCCCACATTTCGGCTAAGGGCACTGCTGCTGCTGCGCCTTAA PQLTRPEPHISAKGTAAAAP* -1.918 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23313 IAIPSLTFDRIVTGGMAHNQ 20 SLAY-screened peptide P1663 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGCTATTCCGTCTCTCACTTTTGACCGTATTGTTACCGGTGGCATGGCGCACAATCAGTAA IAIPSLTFDRIVTGGMAHNQ* -1.918 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23314 RSAYIPITASYFRIAHMP 18 SLAY-screened peptide P1664 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCCGCCTACATCCCCATTACGGCTTCGTACTTTCGTATCGCCCATATGCCGTAGGGCTAA RSAYIPITASYFRIAHMP*G* -1.918 0.000227 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23315 SPYFHLYTPYLNRLLTRTPV 20 SLAY-screened peptide P1665 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCCTACTTTCATCTGTATACTCCGTATCTCAACCGCCTGCTCACTAGGACCCCGGTCTAA SPYFHLYTPYLNRLLTRTPV* -1.916 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23316 YNLFHPNLQTIIMSIN 16 SLAY-screened peptide P1666 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACAACTTGTTTCACCCGAATCTCCAGACTATTATCATGTCTATTAATTAGTATTCTAACTAA YNLFHPNLQTIIMSIN*YSN* -1.915 0.003473 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23317 PPGIGDHTVCSLH 13 SLAY-screened peptide P1667 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTGGTATCGGTGACCATACCGTGTGTTCCTTGCACTAGGCTCAGAACTTTGCCGTTTAA PPGIGDHTVCSLH*AQNFAV* -1.915 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23318 HSDVYCFTSSNHIILGVNYN 20 SLAY-screened peptide P1668 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAGCGACGTCTACTGCTTTACGAGTTCGAACCATATTATTCTGGGCGTTAACTATAATTAA HSDVYCFTSSNHIILGVNYN* -1.915 0.000717 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23319 ARLIYSPLSCQPPVLWFATN 20 SLAY-screened peptide P1669 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAGGCTCATCTATTCCCCCCTCTCTTGTCAGCCCCCCGTGCTTTGGTTTGCGACTAATTAA ARLIYSPLSCQPPVLWFATN* -1.915 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23320 RRSTVKPHHSQVHNPTYANA 20 SLAY-screened peptide P1670 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCGCTCCACTGTCAAGCCCCACCATTCGCAGGTCCATAACCCCACTTATGCGAATGCGTAA RRSTVKPHHSQVHNPTYANA* -1.914 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23321 PLYD 4 SLAY-screened peptide P1671 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTGTATGACTAGCGTGGTCACCATCCTTTTGGCCTTCTCAACCCGAATTCCCCCAGGTAA PLYD*RGHHPFGLLNPNSPR* -1.914 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23322 TVESTMDHRSAASTTNSRNT 20 SLAY-screened peptide P1672 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTCGAGAGCACCATGGACCACCGGTCCGCGGCTAGTACTACTAATTCTCGGAACACCTAA TVESTMDHRSAASTTNSRNT* -1.913 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23323 PTL 3 SLAY-screened peptide P1673 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACTCTCTAGCTCGTCTTCCCTACTAGTCTTAATTGCTAGCAGCTCAATATTATGATGTAA PTL*LVFPTSLNC*QLNIMM* -1.913 0.006062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23324 DDHRYLSNPFIMCWTDCSIT 20 SLAY-screened peptide P1674 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGACCATCGCTACCTTTCTAATCCTTTTATTATGTGTTGGACTGACTGTTCTATTACGTAA DDHRYLSNPFIMCWTDCSIT* -1.913 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23325 CHYLMDNPYFIYV 13 SLAY-screened peptide P1675 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACTATCTTATGGACAACCCCTATTTCATTTATGTCTAGCTCCTCAAGCTTGCGGGTAAC CHYLMDNPYFIYV*LLKLAGN -1.913 0.000159 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23326 SALIHYYWGGGYFLSGPLVP 20 SLAY-screened peptide P1676 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCGCTCATCCACTACTATTGGGGCGGTGGGTATTTTTTGTCCGGGCCTCTGGTCCCTTAA SALIHYYWGGGYFLSGPLVP* -1.913 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23327 GTFYGSSLARQSSCH 15 SLAY-screened peptide P1677 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTACTTTCTATGGGTCGTCGCTCGCCCGTCAGTCCTCGTGCCATTAGTACTCTCGTAAGTAA GTFYGSSLARQSSCH*YSRK* -1.912 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23328 AAADRINTDTSVHSSDMTNT 20 SLAY-screened peptide P1678 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCTGCGGATCGTATTAACACTGATACTTCCGTCCATAGTTCTGATATGACCAATACCTAA AAADRINTDTSVHSSDMTNT* -1.912 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23329 LN 2 SLAY-screened peptide P1679 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAACTAGCTTCCGTATGCTAGCGCCCTGCAGAATGGTTTTCGGGATGTCGTGCACTGTTAA LN*LPYASALQNGFRDVVHC* -1.912 0.000076 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23330 FDLSIHIVIIINNWTLNFHF 20 SLAY-screened peptide P1680 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGACCTTTCGATCCACATTGTGATTATCATCAATAATTGGACCCTCAATTTCCACTTCTAA FDLSIHIVIIINNWTLNFHF* -1.912 0.000779 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23331 CTKQYFSLDTSFWNWPTYLL 20 SLAY-screened peptide P1681 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCACGAAGCAGTACTTTAGTCTCGATACTTCCTTTTGGAACTGGCCCACCTACCTCCTTTAA CTKQYFSLDTSFWNWPTYLL* -1.91 0.000084 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23332 YHTDPSGMPPDSVFLIKHYC 20 SLAY-screened peptide P1682 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCATACTGATCCTAGTGGGATGCCCCCCGATTCGGTTTTTCTGATTAAGCATTATTGCTAA YHTDPSGMPPDSVFLIKHYC* -1.91 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23333 RYLAHPHSPVVFPPRRNSRT 20 SLAY-screened peptide P1683 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTATCTTGCGCACCCTCACTCTCCTGTTGTTTTCCCGCCTCGTAGGAATAGCCGTACCTAA RYLAHPHSPVVFPPRRNSRT* -1.91 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23334 PRWLSCKNNTNYYMTKNVAS 20 SLAY-screened peptide P1684 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGGTGGCTGTCGTGTAAGAACAATACCAATTATTACATGACCAAGAATGTTGCTAGTTAA PRWLSCKNNTNYYMTKNVAS* -1.91 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23335 DLVFTLVTVGGLTITILPVGN 21 SLAY-screened peptide P1685 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCTTGTGTTTACTCTCGTTACAGTTGGTGGCCTCACGATTACAATACTGCCTGTGGGTAAC DLVFTLVTVGGLTITILPVGN -1.91 0.00018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23336 RVAPFTSDGDGFSNLSFCTRN 21 SLAY-screened peptide P1686 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGTGGCGCCCTTCACCAGCGATGGTGATGGTTTTAGTAATCTGAGTTTCTGTACACGTAAC RVAPFTSDGDGFSNLSFCTRN -1.909 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23337 PPSTNSAGSFWNGCFIAIGA 20 SLAY-screened peptide P1687 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCGTCTACCAATAGTGCGGGGTCGTTTTGGAATGGTTGTTTCATTGCGATCGGCGCTTAA PPSTNSAGSFWNGCFIAIGA* -1.909 0.000441 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23338 CLERIFVYLPPSTTV 15 SLAY-screened peptide P1688 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCTCGAGCGTATTTTCGTTTATCTGCCTCCGTCCACTACCGTGTAGATTCGTTCTCCGTAA CLERIFVYLPPSTTV*IRSP* -1.908 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23339 ALTTTLSRPHIYRSAAWSDN 20 SLAY-screened peptide P1689 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCTGACCACCACTCTTTCCCGTCCGCATATCTACCGCTCGGCTGCCTGGTCTGACAACTAA ALTTTLSRPHIYRSAAWSDN* -1.907 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23340 AGPVAPNPQPSWSPLNAILI 20 SLAY-screened peptide P1690 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGGCCCCGTTGCCCCTAATCCCCAGCCCTCCTGGTCGCCCCTGAATGCTATCCTGATTTAA AGPVAPNPQPSWSPLNAILI* -1.906 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23341 CSIYNRTVCFNLFLPITNPV 20 SLAY-screened peptide P1691 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAGCATTTACAATCGTACGGTTTGTTTTAACCTTTTTCTGCCTATTACCAACCCTGTGTAA CSIYNRTVCFNLFLPITNPV* -1.906 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23342 AAAVAAT 7 SLAY-screened peptide P1692 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCGGCCGTTGCCGCCACTTAGAACACCATTTTTCATCTGCATCGCTGCAACGCCAATTAA AAAVAAT*NTIFHLHRCNAN* -1.906 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23343 IQNVRPTSMPERRPSLDKDN 20 SLAY-screened peptide P1693 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCAGAACGTCCGCCCTACGTCCATGCCTGAGCGTAGGCCCTCGCTGGATAAGGATAATTAA IQNVRPTSMPERRPSLDKDN* -1.905 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23344 PLQDSDTPYSAVCSRLTAPR 20 SLAY-screened peptide P1694 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCCAGGATAGCGACACCCCTTATTCCGCCGTGTGTAGCCGCCTTACCGCGCCTCGTTAA PLQDSDTPYSAVCSRLTAPR* -1.905 0.006535 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23345 LRADATSDSRSQRPSRRTDF 20 SLAY-screened peptide P1695 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGGGCCGATGCCACGTCTGACTCGCGTAGTCAGCGTCCTTCGCGTCGGACTGACTTCTAA LRADATSDSRSQRPSRRTDF* -1.904 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23346 HPFPGDWCPDSCNNQVIYSR 20 SLAY-screened peptide P1696 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTTTCCCCGGTGATTGGTGCCCGGACTCCTGCAACAACCAGGTCATCTATTCTCGCTAA HPFPGDWCPDSCNNQVIYSR* -1.904 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23347 PTCFLAATFHFWMNLRPGGG 20 SLAY-screened peptide P1697 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACGTGTTTTTTGGCCGCCACCTTTCACTTCTGGATGAACCTCCGCCCGGGTGGCGGGTAA PTCFLAATFHFWMNLRPGGG* -1.904 0.001296 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23348 LLFYISPLYCEICDKDLEWS 20 SLAY-screened peptide P1698 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTTTTTTACATTTCCCCCCTTTACTGTGAGATTTGCGATAAGGATCTCGAGTGGTCTTAA LLFYISPLYCEICDKDLEWS* -1.904 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23349 LRVYVPLRTDFVNCAHFSMY 20 SLAY-screened peptide P1699 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGCGTGTACGTGCCGCTTAGGACCGACTTTGTCAATTGTGCTCATTTCTCGATGTACTAA LRVYVPLRTDFVNCAHFSMY* -1.903 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23350 VYFRPMRGCPPEGAGQNSFD 20 SLAY-screened peptide P1700 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTATTTCCGGCCCATGCGCGGGTGCCCCCCTGAGGGTGCCGGCCAGAACTCCTTCGACTAA VYFRPMRGCPPEGAGQNSFD* -1.903 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23351 PSRSFRSCPEAYYYWAQLYF 20 SLAY-screened peptide P1701 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCTCGTTCTTTCCGTTCCTGCCCTGAGGCTTACTATTACTGGGCTCAGCTGTATTTCTAA PSRSFRSCPEAYYYWAQLYF* -1.903 0.00029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23352 IH 2 SLAY-screened peptide P1702 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCACTAGCTGGCGAAGTAGACGACCCGCCTTATCCGTTTGGCGCCTCATTCGAAGTACTAA IH*LAK*TTRLIRLAPHSKY* -1.903 0.012041 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23353 HDAVWQPPKPALTSNTIVRD 20 SLAY-screened peptide P1703 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGATGCGGTTTGGCAGCCGCCGAAGCCTGCCCTCACCAGTAATACGATTGTTCGTGATTAA HDAVWQPPKPALTSNTIVRD* -1.903 0.004043 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23354 YQRERIPLSCFTAVCKLTIM 20 SLAY-screened peptide P1704 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCAGCGCGAGCGCATCCCTCTTTCGTGTTTCACGGCTGTTTGCAAGCTTACGATCATGTAA YQRERIPLSCFTAVCKLTIM* -1.902 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23355 GSHKLLTTNKVLLSLAICPM 20 SLAY-screened peptide P1705 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCAGCCATAAGCTTCTGACTACTAACAAGGTCTTGCTGTCCCTCGCCATCTGTCCTATGTAA GSHKLLTTNKVLLSLAICPM* -1.902 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23356 DVATTRNNLSIFRYKCQSFP 20 SLAY-screened peptide P1706 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGTTGCCACTACCAGGAACAATCTTTCCATTTTCCGCTATAAGTGCCAGTCGTTTCCTTAA DVATTRNNLSIFRYKCQSFP* -1.901 0.000321 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23357 PLFTLGKRIINHLLRAYKYD 20 SLAY-screened peptide P1707 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTTTTACTCTGGGTAAGAGGATCATCAACCACTTGCTCAGGGCTTACAAGTATGACTAA PLFTLGKRIINHLLRAYKYD* -1.901 0.000232 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23358 SLWLRLSSSISLIVTALTLTN 21 SLAY-screened peptide P1708 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTTGTGGCTGCGACTCTCCTCGTCGATCTCCCTGATAGTGACTGCGCTTACTTTAACTAAC SLWLRLSSSISLIVTALTLTN -1.9 0.000063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23359 GYLSGAPCYYQL 12 SLAY-screened peptide P1709 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTACTTGTCGGGAGCCCCATGTTACTACCAACTCTGATAACTTTCTGACGTGTTAACTGAG GYLSGAPCYYQL**LSDVLTE -1.9 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23360 QFRVHQVYLRYFAPLYHSIS 20 SLAY-screened peptide P1710 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTTCCGTGTTCACCAGGTGTATCTGCGGTATTTCGCTCCCCTGTACCATTCTATTAGTTAA QFRVHQVYLRYFAPLYHSIS* -1.899 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23361 GWISNLPAVMMNPHNLPAWY 20 SLAY-screened peptide P1711 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTGGATTTCCAATCTTCCCGCTGTTATGATGAATCCTCATAATCTGCCCGCGTGGTACTAA GWISNLPAVMMNPHNLPAWY* -1.898 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23362 GQIKPIIMGCQWSGNHFLTS 20 SLAY-screened peptide P1712 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCAGATTAAGCCCATTATTATGGGTTGTCAGTGGAGTGGTAATCATTTCCTTACCTCTTAA GQIKPIIMGCQWSGNHFLTS* -1.898 0.003662 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23363 LATLSAACTSAP 12 SLAY-screened peptide P1713 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGGCCACCTTGAGTGCTGCCTGCACGTCCGCCCCTTAGCTGATTAACACCACTCACTTTTAA LATLSAACTSAP*LINTTHF* -1.898 0.006087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23364 ACGQ 4 SLAY-screened peptide P1714 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTGCGGGCAGTAGAATTCTGCCACTTTTGGGCCCTCGCTTGACAAGCAGTTTTATACCTAA ACGQ*NSATFGPSLDKQFYT* -1.898 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23365 SLLNAP 6 SLAY-screened peptide P1715 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCTGCTTAACGCTCCGTAGTTGTTGCGCGACACTATTCACTACGACGCCGCGTCCGTTTAA SLLNAP*LLRDTIHYDAASV* -1.898 0.000206 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23366 IADFVPSLRVHFTPFWQTNA 20 SLAY-screened peptide P1716 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCTGATTTCGTGCCCAGTCTGCGTGTGCACTTTACTCCCTTTTGGCAGACTAACGCCTAA IADFVPSLRVHFTPFWQTNA* -1.897 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23367 PGPLHATFRCPTIIIPTTTSN 21 SLAY-screened peptide P1717 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGTCCGCTCCATGCTACGTTCCGATGTCCAACCATTATTATCCCCACGACTACTTCTAAC PGPLHATFRCPTIIIPTTTSN -1.896 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23368 RNAS 4 SLAY-screened peptide P1718 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGAATGCGAGTTAGTCCCTCTATATTAATATTAGTCTCGCGCATCTCACTTACAACATTTAA RNAS*SLYINISLAHLTYNI* -1.896 0.000132 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23369 HLTEHGWTWRCVDIINKYNNY 21 SLAY-screened peptide P1719 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTCACTGAGCACGGCTGGACCTGGCGCTGCGTTGACATTATTAATAAGTACAATAATTAC HLTEHGWTWRCVDIINKYNNY -1.896 0.00039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23370 PPPVARHPCFKHVSVDSYRT 20 SLAY-screened peptide P1720 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTCCGGTTGCGCGCCATCCGTGTTTTAAGCACGTGTCTGTTGACTCTTATCGCACGTAA PPPVARHPCFKHVSVDSYRT* -1.896 0.029669 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23371 TNPNYRHNRSALEFTNIWFH 20 SLAY-screened peptide P1721 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAACCCCAATTATCGTCACAATAGGTCCGCGCTCGAGTTCACCAACATCTGGTTTCACTAA TNPNYRHNRSALEFTNIWFH* -1.895 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23372 HKKAGYSSGEWPRAFVFAPA 20 SLAY-screened peptide P1722 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAAGAAGGCGGGCTACTCTTCGGGTGAGTGGCCCAGGGCGTTCGTCTTCGCGCCTGCGTAA HKKAGYSSGEWPRAFVFAPA* -1.895 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23373 TTAFICILRRYRRDAYQIYLL 21 SLAY-screened peptide P1723 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACCGCCTTTATTTGCATTCTTAGGCGCTATCGTCGCGATGCCTATCAGATCTACCTCCTA TTAFICILRRYRRDAYQIYLL -1.894 0.000026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23374 HYPPFGIFDMINCINSEITN 20 SLAY-screened peptide P1724 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTACCCCCCCTTCGGGATCTTCGACATGATCAATTGCATCAACTCCGAGATTACTAATTAA HYPPFGIFDMINCINSEITN* -1.894 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23375 NPGSIPAVYQSRHLTSPKCP 20 SLAY-screened peptide P1725 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCCCGGGTCTATCCCGGCTGTCTACCAGTCCAGGCACCTCACTTCCCCTAAGTGCCCGTAA NPGSIPAVYQSRHLTSPKCP* -1.893 0.000848 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23376 TTVTYLLSPFYYAGSIAGGF 20 SLAY-screened peptide P1726 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACCGTCACTTATCTCCTCTCGCCTTTCTACTATGCGGGTTCGATCGCCGGCGGGTTTTAA TTVTYLLSPFYYAGSIAGGF* -1.893 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23377 VLPGGPPWLHASTRYASEVS 20 SLAY-screened peptide P1727 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCTCCCTGGGGGCCCGCCTTGGCTGCATGCGTCTACTCGCTACGCTAGTGAGGTGTCCTAA VLPGGPPWLHASTRYASEVS* -1.893 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23378 TGTPAACYTSHYYRPAYNIS 20 SLAY-screened peptide P1728 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGGGACTCCTGCGGCCTGTTACACTAGTCATTATTACCGCCCCGCGTATAACATCAGTTAA TGTPAACYTSHYYRPAYNIS* -1.892 0.006083 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23379 HTSSRDCNIPVHLPYPHISL 20 SLAY-screened peptide P1729 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACGTCTAGCCGTGATTGTAACATTCCGGTCCATCTTCCCTACCCGCACATCTCTCTTTAA HTSSRDCNIPVHLPYPHISL* -1.892 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23380 DHGTKTGTYFPNCMNLTYML 20 SLAY-screened peptide P1730 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCACGGCACGAAGACTGGCACCTATTTTCCCAATTGTATGAATCTTACTTACATGCTTTAA DHGTKTGTYFPNCMNLTYML* -1.892 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23381 SWQTIQIFSL 10 SLAY-screened peptide P1731 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTGGCAGACCATCCAGATCTTTTCGTTGTAGCCTATCCTCCCCCCTCTCTGCCGGTGCTAA SWQTIQIFSL*PILPPLCRC* -1.891 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23382 RPAITCFHNRYLPSFTMEPL 20 SLAY-screened peptide P1732 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCGGCTATTACGTGTTTTCATAACAGGTACCTTCCTAGTTTTACGATGGAGCCTTTGTAA RPAITCFHNRYLPSFTMEPL* -1.891 0.000872 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23383 LSDVPYHVSAPKDPQCQNGG 20 SLAY-screened peptide P1733 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCGGACGTGCCCTACCATGTCTCGGCGCCCAAGGACCCCCAGTGTCAGAACGGTGGGTAA LSDVPYHVSAPKDPQCQNGG* -1.891 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23384 PPSHRHDSNFYIALCISIICN 21 SLAY-screened peptide P1734 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCCTCGCACCGGCACGACTCTAACTTTTATATTGCCCTGTGCATCTCGATTATCTGTAAC PPSHRHDSNFYIALCISIICN -1.891 0.003733 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23385 CSTENKNYNNLRDIIPSQLI 20 SLAY-screened peptide P1735 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTCCACTGAGAACAAGAATTATAATAATCTGCGCGACATCATCCCTTCTCAGCTCATCTAA CSTENKNYNNLRDIIPSQLI* -1.891 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23386 RNKGHQTRYTANGGQYREHP 20 SLAY-screened peptide P1736 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGAACAAGGGCCATCAGACCCGGTACACCGCCAACGGTGGCCAGTATCGGGAGCATCCGTAA RNKGHQTRYTANGGQYREHP* -1.89 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23387 HLSNCSPDQIRP 12 SLAY-screened peptide P1737 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTCAGCAATTGTAGTCCGGACCAGATTAGGCCTTAGATTCACGCGGCTGATAACTATTAA HLSNCSPDQIRP*IHAADNY* -1.89 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23388 PAHLNPFVTPYLIEASEPGS 20 SLAY-screened peptide P1738 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCGCATTTGAATCCTTTCGTTACCCCCTATCTTATCGAGGCTAGTGAGCCTGGGAGCTAA PAHLNPFVTPYLIEASEPGS* -1.889 0.000755 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23389 TNRSAYPGTHYERSYLYYVI 20 SLAY-screened peptide P1739 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAATCGCAGCGCTTACCCGGGTACTCACTACGAGAGGTCCTACCTGTATTACGTGATCTAA TNRSAYPGTHYERSYLYYVI* -1.889 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23390 PLRGLAGTPLIHLYTIHSSY 20 SLAY-screened peptide P1740 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGCGTGGCCTGGCTGGCACCCCGCTTATCCATCTTTATACCATTCACAGTTCTTATTAA PLRGLAGTPLIHLYTIHSSY* -1.889 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23391 PTYALICYSYRQATSPTATK 20 SLAY-screened peptide P1741 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACCTACGCGCTGATCTGTTACTCGTATCGCCAGGCCACCAGTCCGACTGCGACGAAGTAA PTYALICYSYRQATSPTATK* -1.888 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23392 KHDSYRPRGFLNTTFEIDQS 20 SLAY-screened peptide P1742 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCACGATTCCTACCGCCCGCGCGGCTTCCTCAATACTACGTTCGAGATTGATCAGAGCTAA KHDSYRPRGFLNTTFEIDQS* -1.888 0.012824 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23393 PSYCVPLLDRL 11 SLAY-screened peptide P1743 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGCTACTGTGTCCCGCTGCTCGACCGGTTGTAGCATAGTTCTTACCTGGACGTCCATTAA PSYCVPLLDRL*HSSYLDVH* -1.888 0.001088 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23394 IAVTFPLVTSTPHGHSRLSD 20 SLAY-screened peptide P1744 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCGGTTACGTTTCCTCTTGTGACGAGTACCCCTCACGGTCATTCTAGGCTGAGTGATTAA IAVTFPLVTSTPHGHSRLSD* -1.888 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23395 CGTSVRPIIPHKHCYDVTTP 20 SLAY-screened peptide P1745 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGGCACTTCGGTCCGTCCTATTATTCCTCATAAGCATTGCTACGATGTGACCACTCCTTAA CGTSVRPIIPHKHCYDVTTP* -1.887 0.000051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23396 IGSGNADTYLHGSLNQHLHC 20 SLAY-screened peptide P1746 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGGGTCGGGTAACGCTGATACGTATCTTCACGGTTCTCTTAATCAGCACCTTCATTGCTAA IGSGNADTYLHGSLNQHLHC* -1.887 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23397 SHTPPLDNSISFDSDTTYYF 20 SLAY-screened peptide P1747 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCACACCCCGCCGCTGGACAACAGCATCTCGTTTGATAGCGATACGACGTACTACTTCTAA SHTPPLDNSISFDSDTTYYF* -1.887 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23398 PSILSYGSYCHPTWHDFGSP 20 SLAY-screened peptide P1748 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGCATCCTGTCCTATGGTAGTTATTGTCACCCTACTTGGCATGATTTCGGTTCTCCCTAA PSILSYGSYCHPTWHDFGSP* -1.886 0.021084 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23399 PTFESNLKETLSNTATRSSV 20 SLAY-screened peptide P1749 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACTTTTGAGAGCAACCTTAAGGAGACTTTGTCTAACACTGCTACGCGTAGTTCGGTCTAA PTFESNLKETLSNTATRSSV* -1.885 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23400 SGFPYISPPYISNCNFNHDT 20 SLAY-screened peptide P1750 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGGCTTCCCGTATATTTCTCCGCCCTACATCTCGAACTGCAACTTCAACCACGACACGTAA SGFPYISPPYISNCNFNHDT* -1.885 0.005445 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23401 NRKPRRFTCYLNAVLHTSPP 20 SLAY-screened peptide P1751 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCGTAAGCCTCGCCGTTTCACCTGTTACCTGAACGCTGTTCTTCATACCTCTCCGCCGTAA NRKPRRFTCYLNAVLHTSPP* -1.885 0.000213 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23402 HGPGARSFRYHDHNRRCDGR 20 SLAY-screened peptide P1752 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGGCCCTGGTGCCCGTAGTTTTCGTTATCACGATCACAACCGTCGTTGTGACGGTAGGTAA HGPGARSFRYHDHNRRCDGR* -1.885 0.000132 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23403 HRCYHSSPSFYDFFIWRFPW 20 SLAY-screened peptide P1753 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGCTGTTATCACTCTAGCCCGAGTTTTTACGATTTTTTTATTTGGCGTTTCCCTTGGTAA HRCYHSSPSFYDFFIWRFPW* -1.884 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23404 FHRPQDQSHSYTPTVATCTQ 20 SLAY-screened peptide P1754 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCACAGGCCGCAGGATCAGTCTCATTCGTATACTCCCACCGTTGCGACGTGCACGCAGTAA FHRPQDQSHSYTPTVATCTQ* -1.884 0.000278 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23405 PHSNSQPDSRHYPHCWYALL 20 SLAY-screened peptide P1755 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCACAGTAATTCGCAGCCCGATTCCCGGCACTACCCCCACTGTTGGTATGCGCTTCTTTAA PHSNSQPDSRHYPHCWYALL* -1.883 0.006844 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23406 FTYQATHPAPELREASTIGS 20 SLAY-screened peptide P1756 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACGTACCAGGCCACTCATCCCGCGCCGGAGCTTCGGGAGGCTAGTACGATTGGTAGTTAA FTYQATHPAPELREASTIGS* -1.883 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23407 SNYVRYK 7 SLAY-screened peptide P1757 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAACTATGTCAGGTATAAGTAGCCCTTGCGTGTTAATCATGAGAGCCGGACCATCTTCTAA SNYVRYK*PLRVNHESRTIF* -1.883 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23408 SQRLAHYKHDNFNVYKHHYS 20 SLAY-screened peptide P1758 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCAGCGCCTTGCGCATTACAAGCATGACAATTTCAATGTGTATAAGCACCATTATTCTTAA SQRLAHYKHDNFNVYKHHYS* -1.883 0.002852 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23409 ARSETCFRPRPGSSSRLGYV 20 SLAY-screened peptide P1759 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCGTTCCGAGACCTGCTTTCGGCCTCGTCCCGGTAGCTCTTCTCGTCTCGGTTATGTCTAA ARSETCFRPRPGSSSRLGYV* -1.881 0.000089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23410 LPGCYTHCHDHHQPLRRPALN 21 SLAY-screened peptide P1760 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCGGGCTGCTATACGCACTGTCATGATCACCATCAGCCGTTACGAAGACCAGCCCTTAAC LPGCYTHCHDHHQPLRRPALN -1.881 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23411 HCMLLLA 7 SLAY-screened peptide P1761 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGTATGTTGCTTCTTGCGTAGGTGACGACCGCTATGTGGCGTGTTCACTGCCTGATTTAA HCMLLLA*VTTAMWRVHCLI* -1.881 0.002946 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23412 TRTRTLIILLRIFSRLIRSSN 21 SLAY-screened peptide P1762 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGAGAACCAGAACCCTTATTATATTATTGAGAATTTTTTCGAGACTAATACGCAGCAGTAAC TRTRTLIILLRIFSRLIRSSN -1.881 0.000089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23413 WILS 4 SLAY-screened peptide P1763 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGATTCTCTCTTAGTACTTCTCCAACCCCACTGACAGGTTTCCGCTGTAGGACCATCCTTAA WILS*YFSNPTDRFPL*DHP* -1.881 0.01302 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23414 HTILSSIAADDMVIRANTPVN 21 SLAY-screened peptide P1764 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACTATCCTCTCTAGTATCGCCGCGGATGATATGGTTATTAGGGCTAATACGCCGGTTAAC HTILSSIAADDMVIRANTPVN -1.88 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23415 HVRPLTQNSIDNNLSLSRAH 20 SLAY-screened peptide P1765 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGTGCGTCCTCTTACCCAGAATTCGATTGACAATAACCTTTCTCTCTCCCGCGCGCATTAA HVRPLTQNSIDNNLSLSRAH* -1.88 0.000249 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23416 IN 2 SLAY-screened peptide P1766 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAACTAGCTTTCTACTAATACTTAGGGCCCTTTTGATAACGTTGTGCTTCCCACTCCCTAA IN*LSTNT*GPFDNVVLPTP* -1.88 0.000183 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23417 LMISNRHG 8 SLAY-screened peptide P1767 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATGATCTCGAATCGGCATGGTTAGTACAATTCCCGCAACGATCTCCTCGCCTGCAGCTAA LMISNRHG*YNSRNDLLACS* -1.879 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23418 MTCTG 5 SLAY-screened peptide P1768 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGACTTGCACCGGCTAGCCGGGTCTCTCCCCCCCTCCGCTCGGTTCTATTTTTGACCCGTAA MTCTG*PGLSPPPLGSIFDP* -1.878 0.000056 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23419 DLYAS 5 SLAY-screened peptide P1769 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCTTTATGCCAGCTAGTTTCATAGCACTGACCCCCCTTACATTGATGTGTTGGTTATTTAA DLYAS*FHSTDPPYIDVLVI* -1.878 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23420 SVRHQHLLLCVRGTCLLKFK 20 SLAY-screened peptide P1770 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGTCCGGCATCAGCATCTGCTTTTGTGTGTTCGGGGGACGTGCCTCCTTAAGTTTAAGTAA SVRHQHLLLCVRGTCLLKFK* -1.877 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23421 SSTVVILYPLVQIFRRYGRY 20 SLAY-screened peptide P1771 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTCTACTGTGGTGATCCTTTATCCCCTGGTCCAGATCTTTCGTCGCTACGGCCGCTACTAA SSTVVILYPLVQIFRRYGRY* -1.877 0.006572 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23422 MPVTFLGINTCAYPPRRDYK 20 SLAY-screened peptide P1772 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCCCGTTACTTTTCTGGGTATCAATACTTGCGCGTATCCCCCTAGGAGGGACTACAAGTAA MPVTFLGINTCAYPPRRDYK* -1.876 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23423 TVCIPSASSTQFASMRPPWI 20 SLAY-screened peptide P1773 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGTGTGCATCCCCTCTGCGAGCAGCACCCAGTTTGCGAGCATGCGCCCTCCCTGGATTTAA TVCIPSASSTQFASMRPPWI* -1.876 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23424 DTPTVIISNPHRHTSFGAGY 20 SLAY-screened peptide P1774 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACACGCCGACCGTCATTATTTCTAACCCTCACAGGCATACCTCCTTTGGCGCTGGCTACTAA DTPTVIISNPHRHTSFGAGY* -1.875 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23425 PRIPIRSRRSNSTTI 15 SLAY-screened peptide P1775 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGCATTCCGATTCGGTCTCGTCGCTCTAATAGCACTACGATTTAGTGCAGTTTCGATTAA PRIPIRSRRSNSTTI*CSFD* -1.874 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23426 LRFKPLHLDFAFHSSLPMVS 20 SLAY-screened peptide P1776 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCGTTTTAAGCCTCTTCATCTTGATTTCGCCTTCCATTCCTCCTTGCCGATGGTGAGCTAA LRFKPLHLDFAFHSSLPMVS* -1.874 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23427 YNSTAKLDLCGVTNHTRIRW 20 SLAY-screened peptide P1777 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAACTCGACTGCGAAGCTTGACCTTTGTGGCGTCACCAACCATACTCGCATCAGGTGGTAA YNSTAKLDLCGVTNHTRIRW* -1.874 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23428 YKRIHIAISFHGWSVHFELH 20 SLAY-screened peptide P1778 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAAGCGCATTCATATCGCGATTAGTTTTCATGGTTGGTCCGTTCACTTTGAGCTTCACTAA YKRIHIAISFHGWSVHFELH* -1.874 0.014519 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23429 DWPHFRIGLFISPQVYTHLS 20 SLAY-screened peptide P1779 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTGGCCTCACTTTCGCATTGGTCTTTTTATCAGCCCGCAGGTTTACACTCATCTTTCTTAA DWPHFRIGLFISPQVYTHLS* -1.872 0.016207 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23430 PKGLGMSLARSIDYWCGFLI 20 SLAY-screened peptide P1780 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAAGGGCCTCGGCATGAGTCTCGCTCGGAGTATCGACTACTGGTGTGGTTTTCTGATCTAA PKGLGMSLARSIDYWCGFLI* -1.871 0.000092 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23431 DAVPTAHSSRKYLPQDSPTT 20 SLAY-screened peptide P1781 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGCTGTCCCTACTGCCCACAGCAGTAGGAAGTACTTGCCCCAGGACTCCCCGACCACTTAA DAVPTAHSSRKYLPQDSPTT* -1.87 0.000083 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23432 FWLYLSCICILNHSHN 16 SLAY-screened peptide P1782 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTGGCTCTACCTGAGCTGCATTTGCATCCTTAATCACAGTCATAATTAGCACTGTAACTAA FWLYLSCICILNHSHN*HCN* -1.87 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23433 LHADAIHIYELGYHPLLYVS 20 SLAY-screened peptide P1783 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCACGCCGATGCTATTCATATCTACGAGCTTGGTTATCACCCGCTGCTCTACGTTTCCTAA LHADAIHIYELGYHPLLYVS* -1.87 0.001007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23434 GTPKPPFRSNVGSYETALYH 20 SLAY-screened peptide P1784 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTACGCCGAAGCCCCCGTTCCGTTCTAACGTGGGTTCGTATGAGACCGCGCTCTACCATTAA GTPKPPFRSNVGSYETALYH* -1.87 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23435 GAPSVNCTNR 10 SLAY-screened peptide P1785 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGCTCCCTCGGTTAACTGCACGAATCGTTAGACGAACGGCCGCGGTAATTGCATCTCTTAA GAPSVNCTNR*TNGRGNCIS* -1.87 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23436 HTHFNCSVLARVRTVPTVAIN 21 SLAY-screened peptide P1786 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACGCATTTCAATTGTTCCGTCTTGGCTAGGGTTAGGACTGTTCCTACAGTCGCTATTAAC HTHFNCSVLARVRTVPTVAIN -1.87 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23437 FLSHI 5 SLAY-screened peptide P1787 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCTCTCCCACATTTAGCTCCGTAATATGTTGCGTTTTGATCAGATTGCTTGGCTTCCTTAA FLSHI*LRNMLRFDQIAWLP* -1.87 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23438 RPIPMYFCRHYNLAWTQATF 20 SLAY-screened peptide P1788 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCCATTCCTATGTACTTTTGTCGCCACTACAATCTTGCGTGGACTCAGGCGACGTTTTAA RPIPMYFCRHYNLAWTQATF* -1.869 0.006711 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23439 IRNGSANSVMSTYYPPSLIT 20 SLAY-screened peptide P1789 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAGGAACGGGTCCGCTAATTCCGTTATGAGCACTTACTATCCGCCTTCCCTCATTACCTAA IRNGSANSVMSTYYPPSLIT* -1.868 0.00005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23440 AQVLVTMVSTALAP 14 SLAY-screened peptide P1790 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCAGGTCTTGGTCACTATGGTGAGCACTGCCCTTGCTCCTTAGGGGGCTAGCCACCCCTAA AQVLVTMVSTALAP*GASHP* -1.867 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23441 SSPVLYTSFTIGLWTYRHCE 20 SLAY-screened peptide P1791 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAGTCCCGTTTTGTATACTAGCTTTACTATTGGGCTGTGGACTTACCGCCATTGTGAGTAA SSPVLYTSFTIGLWTYRHCE* -1.865 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23442 NTCISPVTNNYTLAHVFLHN 20 SLAY-screened peptide P1792 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACGTGTATTAGTCCCGTTACTAATAACTATACCCTTGCCCACGTTTTCTTGCATAATTAA NTCISPVTNNYTLAHVFLHN* -1.865 0.005656 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23443 KHWNTECCCSGNGN 14 SLAY-screened peptide P1793 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCATTGGAATACCGAGTGCTGTTGTAGTGGCAACGGTAATTAGTCGCTTCACATGCTTTAC KHWNTECCCSGNGN*SLHMLY -1.865 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23444 RCRRLIAFYKYWRMRSIWLRN 21 SLAY-screened peptide P1794 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGCCGGCGCCTTATCGCGTTTTACAAGTACTGGCGCATGCGTTCAATTTGGCTGCGTAAC RCRRLIAFYKYWRMRSIWLRN -1.865 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23445 PGNCRPAGFNRIRDSPSYAF 20 SLAY-screened peptide P1795 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGCAACTGTCGGCCTGCGGGCTTTAATCGTATTCGGGATTCCCCGAGTTATGCGTTCTAA PGNCRPAGFNRIRDSPSYAF* -1.865 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23446 HPTIP 5 SLAY-screened peptide P1796 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCGACTATCCCCTAGTACTACAATGATACGCATCGTCTTATTGCTTCGACTCACTATTAA HPTIP*YYNDTHRLIASTHY* -1.865 0.000066 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23447 FPTAPHGGDLYRDLPALSCT 20 SLAY-screened peptide P1797 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCTACTGCTCCTCACGGTGGTGACCTCTACCGTGATCTGCCTGCGCTTAGTTGCACCTAA FPTAPHGGDLYRDLPALSCT* -1.865 0.000171 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23448 LNHMHNLLHLLTRLARSFRRN 21 SLAY-screened peptide P1798 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAATCATATGCACAACCTCCTTCATTTGCTAACACGGCTAGCAAGGTCATTCCGTCGTAAC LNHMHNLLHLLTRLARSFRRN -1.864 0.000163 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23449 SSTVFAKPGRLIPSFSFFGC 20 SLAY-screened peptide P1799 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAGCACCGTTTTTGCGAAGCCTGGGCGTTTGATCCCCAGCTTCTCCTTTTTCGGTTGCTAA SSTVFAKPGRLIPSFSFFGC* -1.864 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23450 TCS 3 SLAY-screened peptide P1800 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGCTCTTAGCTGCCCGGGCTGCACACTAACCCTATTTTTACCATGCGGTGTCGGTAGTAA TCS*LPGLHTNPIFTMRCR** -1.864 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23451 PMCVKRLLTLLTRRFRLAVSN 21 SLAY-screened peptide P1801 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATGTGTGTGAAGCGTCTGTTGACTCTGTTGACCCGTCGTTTTAGGCTCGCTGTGAGTAAC PMCVKRLLTLLTRRFRLAVSN -1.863 0.000212 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23452 PPLFQPSQAVQYKGSPDSGS 20 SLAY-screened peptide P1802 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTCTGTTTCAGCCTTCCCAGGCCGTTCAGTACAAGGGGTCCCCTGATTCGGGCAGCTAA PPLFQPSQAVQYKGSPDSGS* -1.863 0.007613 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23453 APVLNCYMLSIFRNVR 16 SLAY-screened peptide P1803 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCGGTTTTGAATTGCTATATGCTGAGTATTTTTCGGAACGTCCGTTAGACCACTATTTAA APVLNCYMLSIFRNVR*TTI* -1.862 0.010706 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23454 ALFMQYATHRRQLSPGRFVH 20 SLAY-screened peptide P1804 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCTGTTTATGCAGTACGCCACCCATCGGCGTCAGCTTAGTCCGGGGCGTTTCGTCCACTAA ALFMQYATHRRQLSPGRFVH* -1.862 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23455 AAPLLHPWGTPLYDRVLITY 20 SLAY-screened peptide P1805 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGCCCCTCTTCTGCATCCTTGGGGTACTCCGCTTTACGATAGGGTTTTGATCACTTACTAA AAPLLHPWGTPLYDRVLITY* -1.862 0.001199 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23456 SINPISDQLEVHPNCHMVHH 20 SLAY-screened peptide P1806 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTATTAATCCTATCAGTGACCAGCTTGAGGTCCATCCGAATTGCCATATGGTCCACCATTAA SINPISDQLEVHPNCHMVHH* -1.862 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23457 RQPSIGLSHDYNPPFHRSSQ 20 SLAY-screened peptide P1807 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCAGCCCTCTATTGGCCTGTCTCATGACTATAACCCCCCTTTCCATAGGAGTTCTCAGTAA RQPSIGLSHDYNPPFHRSSQ* -1.861 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23458 RYTNYSTCNLE 11 SLAY-screened peptide P1808 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTATACTAATTATTCTACTTGTAACCTTGAGTAGCGTAGCATCATTATTGCGGGGATCTAA RYTNYSTCNLE*RSIIIAGI* -1.861 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23459 HSTQLNFSSVNTINILNLSN 20 SLAY-screened peptide P1809 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTCCACTCAGCTTAACTTTAGTTCTGTGAACACCATCAACATTCTTAACCTCAGTAACTAA HSTQLNFSSVNTINILNLSN* -1.86 0.000025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23460 LNNCKPPVLPTTSVHPFSWR 20 SLAY-screened peptide P1810 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAACAATTGCAAGCCTCCTGTCCTCCCTACTACTTCGGTGCATCCTTTTTCGTGGCGGTAA LNNCKPPVLPTTSVHPFSWR* -1.859 0.024152 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23461 RYIEGSHRYFMHPVYYLFEP 20 SLAY-screened peptide P1811 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTATATCGAGGGCTCGCATCGGTATTTTATGCACCCCGTGTATTACCTCTTCGAGCCCTAA RYIEGSHRYFMHPVYYLFEP* -1.859 0.005173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23462 HYPRIDHNFRDF 12 SLAY-screened peptide P1812 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTACCCCCGGATCGACCATAACTTTCGTGACTTTTAGTATCATTCTAGCTGCTGTTCGTAA HYPRIDHNFRDF*YHSSCCS* -1.858 0.000267 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23463 YNGLNSPSYTEGCVYLV 17 SLAY-screened peptide P1813 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAATGGCCTCAACAGTCCCTCTTATACGGAGGGTTGCGTCTACTTGGTTTAGGTGTCCTAC YNGLNSPSYTEGCVYLV*VSY -1.858 0.000815 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23464 CRRVNAYRPIKSSGSQNSLY 20 SLAY-screened peptide P1814 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAGGCGCGTTAATGCCTACCGCCCTATTAAGTCGTCCGGTTCTCAGAACAGCCTCTACTAA CRRVNAYRPIKSSGSQNSLY* -1.858 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23465 NPWLSHFVRMLILRLFRG 18 SLAY-screened peptide P1815 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCCCTGGCTTTCGCATTTCGTTAGGATGTTAATATTAAGGCTATTCAGGGGCTGAAGTAAC NPWLSHFVRMLILRLFRG*SN -1.858 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23466 SWADIRRGQNTLQKTDD 17 SLAY-screened peptide P1816 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTGGGCTGACATCCGTCGGGGCCAGAACACTTTGCAGAAGACTGACGACTAGGCTACTTAA SWADIRRGQNTLQKTDD*AT* -1.856 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23467 VCKRRYPPDSSPPRSDQAST 20 SLAY-screened peptide P1817 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTGCAAGAGGAGGTACCCGCCTGATTCCAGCCCGCCTCGGAGTGATCAGGCTAGTACCTAA VCKRRYPPDSSPPRSDQAST* -1.856 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23468 NEPKTTSVLTLFCLVCLLPSN 21 SLAY-screened peptide P1818 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGAGCCGAAGACGACCAGCGTATTAACACTATTTTGTCTAGTATGTCTACTCCCTAGTAAC NEPKTTSVLTLFCLVCLLPSN -1.855 0.007009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23469 CLFPCNTHCYYFLRVLPIDT 20 SLAY-screened peptide P1819 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCTTTCCTTGCAACACCCATTGTTATTATTTTTTGCGGGTGCTTCCCATTGACACGTAA CLFPCNTHCYYFLRVLPIDT* -1.855 0.001135 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23470 HDVAHLLRCGSNPGAWAQTS 20 SLAY-screened peptide P1820 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGATGTCGCCCATCTGCTTCGCTGCGGTAGTAACCCTGGCGCGTGGGCCCAGACTTCTTAA HDVAHLLRCGSNPGAWAQTS* -1.855 0.000156 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23471 GRHIIFLSVVMLRFSRRDSV 20 SLAY-screened peptide P1821 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCGTCATATTATTTTTTTGAGCGTCGTGATGTTGAGGTTCAGCAGGCGGGATAGTGTCTAA GRHIIFLSVVMLRFSRRDSV* -1.855 0.005455 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23472 SANYVVHPAINGGTPPWSLI 20 SLAY-screened peptide P1822 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGCTAATTACGTGGTCCACCCGGCCATCAACGGGGGGACGCCGCCCTGGTCGCTTATCTAA SANYVVHPAINGGTPPWSLI* -1.855 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23473 NSYAYPYRFYLLSLTSANRA 20 SLAY-screened peptide P1823 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCCTATGCCTATCCCTATCGTTTCTACCTCCTTTCCCTCACGAGTGCCAATCGTGCCTAA NSYAYPYRFYLLSLTSANRA* -1.854 0.008738 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23474 TSLVAAAVDARRARMHESLP 20 SLAY-screened peptide P1824 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAGCCTGGTTGCTGCTGCTGTTGACGCTAGGCGGGCCAGGATGCACGAGTCCCTGCCTTAA TSLVAAAVDARRARMHESLP* -1.854 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23475 PVAHVPKLDLNCFLAPNCYS 20 SLAY-screened peptide P1825 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTTGCTCATGTTCCGAAGCTCGATCTCAACTGCTTTTTGGCCCCTAATTGTTACAGTTAA PVAHVPKLDLNCFLAPNCYS* -1.853 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23476 NPRKLATSKNCHIPQILDF 19 SLAY-screened peptide P1826 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCCGCGCAAGCTTGCGACGTCCAAGAATTGCCACATCCCGCAGATCCTCGATTTTTAGTAA NPRKLATSKNCHIPQILDF** -1.853 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23477 NLHPDGKTLTHVLSRALHPP 20 SLAY-screened peptide P1827 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCTCCACCCTGACGGCAAGACCTTGACCCATGTGCTCTCCAGGGCGTTGCATCCTCCGTAA NLHPDGKTLTHVLSRALHPP* -1.853 0.006547 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23478 ADENLSARGVFRCLHY 16 SLAY-screened peptide P1828 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGATGAGAACCTGTCTGCTCGAGGCGTCTTTCGCTGCCTACATTACTAGTTACTAACTGAG ADENLSARGVFRCLHY*LLTE -1.852 0.000092 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23479 PA 2 SLAY-screened peptide P1829 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCGTAGTCGGTCATCCATGCCACTGAGGCGCACGTGCAGAAGTTTTTTGATCTTAACTAA PA*SVIHATEAHVQKFFDLN* -1.852 0.000133 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23480 RNTNVHMLEPWLTDSLILLGN 21 SLAY-screened peptide P1830 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAATACCAATGTGCATATGTTGGAGCCTTGGCTTACCGATAGCCTCATACTACTGGGTAAC RNTNVHMLEPWLTDSLILLGN -1.852 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23481 CSSPFSPQVF 10 SLAY-screened peptide P1831 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTCGAGTCCCTTTTCGCCGCAGGTTTTTTAGCCCTATGGCCTTTAGGGGATTACGTGCTAA CSSPFSPQVF*PYGL*GITC* -1.85 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23482 HRPTPQPRCNVIHSRQNNDL 20 SLAY-screened peptide P1832 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGTCCGACGCCTCAGCCTCGTTGTAACGTTATCCATTCCAGGCAGAATAACGACCTCTAA HRPTPQPRCNVIHSRQNNDL* -1.85 0.043603 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23483 SMPTSYPNSYDVA 13 SLAY-screened peptide P1833 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTATGCCTACTAGCTATCCTAACTCTTATGATGTCGCCTAGATTTCGGTGGCGAAGCGGTAA SMPTSYPNSYDVA*ISVAKR* -1.85 0.000227 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23484 GPAYLYISYWTLNYNPYIYK 20 SLAY-screened peptide P1834 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCCGGCTTACCTGTACATTAGCTATTGGACCTTGAATTACAACCCCTATATTTATAAGTAA GPAYLYISYWTLNYNPYIYK* -1.849 0.013233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23485 PPPGGTPSNPYEAGVTRPHF 20 SLAY-screened peptide P1835 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCGCCTGGCGGGACCCCGTCGAATCCTTACGAGGCCGGCGTGACCAGGCCCCATTTCTAA PPPGGTPSNPYEAGVTRPHF* -1.849 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23486 THYRWLLFPQF 11 SLAY-screened peptide P1836 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCATTATCGTTGGCTCTTGTTCCCACAATTCTAGCTCGTGTTATTGTATCTAACTGAGTAA THYRWLLFPQF*LVLLYLTE* -1.848 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23487 LAPHLYATRCVLSVLLIQHN 20 SLAY-screened peptide P1837 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGCTCCGCATCTTTATGCGACCCGTTGCGTTCTTTCCGTGCTGTTGATTCAGCATAACTAA LAPHLYATRCVLSVLLIQHN* -1.848 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23488 TNYGRTFIGADIFI 14 SLAY-screened peptide P1838 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAATTATGGTCGCACCTTTATCGGGGCGGATATCTTCATCTGAGTAACGATGGCGGTTAAC TNYGRTFIGADIFI*VTMAVN -1.848 0.002841 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23489 YDAPRTFKVDC 11 SLAY-screened peptide P1839 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGACGCTCCTCGCACTTTCAAGGTCGATTGCTAGACGAGTCACAACCAGAGCCCCTTCTAA YDAPRTFKVDC*TSHNQSPF* -1.848 0.045375 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23490 LPCPPSWATSMNCPFVASQA 20 SLAY-screened peptide P1840 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCGTGCCCCCCTAGCTGGGCTACCTCCATGAATTGCCCGTTTGTGGCTAGCCAGGCCTAA LPCPPSWATSMNCPFVASQA* -1.845 0.000509 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23491 HQRSDKCVATSDAYLSSKPT 20 SLAY-screened peptide P1841 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCAGCGGTCCGACAAGTGTGTTGCCACTTCGGATGCTTATCTTAGCTCCAAGCCTACCTAA HQRSDKCVATSDAYLSSKPT* -1.845 0.002404 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23492 HVFEPFDNLPMNPIWSNQ 18 SLAY-screened peptide P1842 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGTTTTCGAGCCCTTCGACAATCTTCCGATGAATCCTATTTGGTCTAACCAGTAGAGCTAA HVFEPFDNLPMNPIWSNQ*S* -1.845 0.000601 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23493 LNFSAVRQDGTHRTSSNSNH 20 SLAY-screened peptide P1843 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGAATTTCTCCGCTGTCCGGCAGGATGGCACTCACCGTACTTCGAGTAACTCTAATCATTAA LNFSAVRQDGTHRTSSNSNH* -1.844 0.000216 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23494 THHKNWMSSYPTVQNLIYYT 20 SLAY-screened peptide P1844 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCATCACAAGAATTGGATGTCCTCTTATCCGACTGTTCAGAATCTGATTTACTACACCTAA THHKNWMSSYPTVQNLIYYT* -1.844 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23495 SALAVVTSRTSCTYTPN 17 SLAY-screened peptide P1845 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCGCTGGCCGTCGTTACTTCCCGTACTTCTTGCACTTATACTCCGAACTAGTCTCTGTAA SALAVVTSRTSCTYTPN*SL* -1.844 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23496 KTITLLLVAYNSNNIS 16 SLAY-screened peptide P1846 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGACTATTACCCTCCTTTTGGTTGCTTACAATTCGAACAATATTTCCTAGGTCACGAGGTAA KTITLLLVAYNSNNIS*VTR* -1.844 0.00062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23497 NILCTGSSRRFMLIIARTTCN 21 SLAY-screened peptide P1847 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACATCCTTTGTACTGGTAGTTCGCGTCGCTTCATGCTTATTATTGCGCGTACTACATGTAAC NILCTGSSRRFMLIIARTTCN -1.843 0.001629 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23498 RY 2 SLAY-screened peptide P1848 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTATTAGGTGCGTAGGCCCAACCACATGGGTCATTACGATGTTTTTGATTTCATGAACTAA RY*VRRPNHMGHYDVFDFMN* -1.843 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23499 SYPDQVRPHNPHGILSVDNS 20 SLAY-screened peptide P1849 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTACCCCGACCAGGTTAGGCCGCACAATCCTCATGGTATTCTCAGTGTTGATAACAGCTAA SYPDQVRPHNPHGILSVDNS* -1.843 0.000118 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23500 TYHIAISSSNALLTAALPRG 20 SLAY-screened peptide P1850 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTATCATATTGCTATCTCCTCTAGTAATGCCCTGCTTACCGCTGCGTTGCCTCGTGGTTAA TYHIAISSSNALLTAALPRG* -1.843 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23501 NRVAEVKDNDNGLVTATVAFN 21 SLAY-screened peptide P1851 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCGGGTTGCTGAGGTTAAGGATAATGACAACGGCCTGGTTACTGCGACCGTGGCTTTTAAC NRVAEVKDNDNGLVTATVAFN -1.842 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23502 GRSHLATFDPHDWHIRLPILN 21 SLAY-screened peptide P1852 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCGCTCTCATCTGGCTACGTTTGACCCCCACGATTGGCATATTAGGTTGCCGATACTTAAC GRSHLATFDPHDWHIRLPILN -1.841 0.000608 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23503 PHSSFDAADYYTGQSCVKCY 20 SLAY-screened peptide P1853 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCATTCGTCCTTCGACGCCGCGGACTACTATACTGGTCAGTCGTGCGTGAAGTGTTATTAA PHSSFDAADYYTGQSCVKCY* -1.841 0.001893 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23504 YTPFHSFPIWPCPPSLHLAV 20 SLAY-screened peptide P1854 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACGCCCTTTCATTCGTTTCCTATCTGGCCTTGTCCTCCCAGCCTGCACCTCGCGGTTTAA YTPFHSFPIWPCPPSLHLAV* -1.841 0.013543 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23505 SHGLGDKPSPHNNSNIVCPN 20 SLAY-screened peptide P1855 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCATGGTCTCGGTGACAAGCCGTCGCCGCACAACAACTCTAATATTGTTTGCCCTAATTAA SHGLGDKPSPHNNSNIVCPN* -1.841 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23506 RYYPRNWRHLYNNVRTHLTS 20 SLAY-screened peptide P1856 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTATTATCCTCGGAACTGGCGGCACCTGTATAATAATGTCCGGACCCATCTTACTTCCTAA RYYPRNWRHLYNNVRTHLTS* -1.84 0.000067 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23507 ILSSNQLMCCVPRSSLIHRL 20 SLAY-screened peptide P1857 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCTCTCGTCTAACCAGCTTATGTGTTGTGTCCCGCGTAGTAGTCTTATTCACAGGCTTTAA ILSSNQLMCCVPRSSLIHRL* -1.839 0.001689 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23508 RTIARLLYAFLRRVSACSGM 20 SLAY-screened peptide P1858 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGACCATCGCTCGTCTGCTCTATGCTTTCCTTCGTCGGGTTAGCGCGTGCTCCGGTATGTAA RTIARLLYAFLRRVSACSGM* -1.839 0.012215 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23509 PRYLTDFLLRPADSQYSDPH 20 SLAY-screened peptide P1859 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGCTACCTGACCGACTTCTTGCTGCGGCCTGCTGATTCCCAGTACTCCGACCCGCATTAA PRYLTDFLLRPADSQYSDPH* -1.839 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23510 FKTIHMHGVSVTPMG 15 SLAY-screened peptide P1860 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTAAGACTATTCACATGCACGGTGTATCTGTTACACCTATGGGTTGATTTATATGAAGTAAC FKTIHMHGVSVTPMG*FI*SN -1.838 0.000697 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23511 LLNPFNDRDSMPLSHFYMLL 20 SLAY-screened peptide P1861 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTTAACCCGTTCAATGACCGCGATTCCATGCCTCTTAGTCACTTTTACATGCTGCTGTAA LLNPFNDRDSMPLSHFYMLL* -1.838 0.000171 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23512 GAR 3 SLAY-screened peptide P1862 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGCCCGCTAGGGCATTTTTAGCTGCACCAATAATAACGAGGTCTGTTATTCTTATTGCTAA GAR*GIFSCTNNNEVCYSYC* -1.838 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23513 CFDRPHNFINGIPFLRIYTT 20 SLAY-screened peptide P1863 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTTCGATCGTCCCCACAACTTCATTAACGGTATTCCCTTTTTGCGCATTTACACTACCTAA CFDRPHNFINGIPFLRIYTT* -1.838 0.000022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23514 MNKHPAPGCPGHAHRSLKFW 20 SLAY-screened peptide P1864 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGAACAAGCACCCTGCTCCCGGCTGTCCCGGCCACGCGCATCGTTCTCTGAAGTTTTGGTAA MNKHPAPGCPGHAHRSLKFW* -1.837 0.000622 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23515 LVINMLCKTIQLFKLIQLVF 20 SLAY-screened peptide P1865 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGTGATTAATATGCTTTGCAAGACCATTCAGCTTTTCAAGCTCATTCAGCTTGTGTTTTAA LVINMLCKTIQLFKLIQLVF* -1.837 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23516 VSTPSPLFGKDPHWWTQALR 20 SLAY-screened peptide P1866 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTCTACCCCTAGCCCTCTGTTTGGCAAGGATCCGCATTGGTGGACCCAGGCGCTCCGTTAA VSTPSPLFGKDPHWWTQALR* -1.836 0.003219 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23517 VSSFLLSTYGGLRMHTFIPV 20 SLAY-screened peptide P1867 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTCCAGCTTTTTGCTCTCCACGTATGGTGGCCTGCGTATGCACACCTTCATCCCCGTGTAA VSSFLLSTYGGLRMHTFIPV* -1.836 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23518 FEGRQAAD 8 SLAY-screened peptide P1868 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGAGGGGCGCCAGGCTGCGGATTAGGCTCATTGCTGCAATATGCATGCCCCTGACACTTAA FEGRQAAD*AHCCNMHAPDT* -1.836 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23519 YTAPRADILKKRLNNSLDTV 20 SLAY-screened peptide P1869 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATACTGCGCCGCGGGCGGACATCCTGAAGAAGCGCTTGAACAATTCGTTGGATACCGTGTAA YTAPRADILKKRLNNSLDTV* -1.835 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23520 SRLKVPRGHPLAPYDRGMMA 20 SLAY-screened peptide P1870 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGCCTCAAGGTCCCCCGGGGGCACCCGCTGGCGCCGTATGATCGCGGCATGATGGCGTAA SRLKVPRGHPLAPYDRGMMA* -1.834 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23521 INIPKLILILLISADHHQMP 20 SLAY-screened peptide P1871 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAACATTCCTAAGCTTATTCTCATTCTTTTGATCTCTGCGGACCACCACCAGATGCCCTAA INIPKLILILLISADHHQMP* -1.834 0.000583 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23522 NTFNTLGCFFSDPMP 15 SLAY-screened peptide P1872 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACCTTTAATACCTTGGGCTGTTTCTTCTCTGACCCAATGCCGTGATGACTACGCTCTAAC NTFNTLGCFFSDPMP**LRSN -1.834 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23523 LCPSQHPLYFALAGTPITLLN 21 SLAY-screened peptide P1873 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTGTCCTTCCCAGCACCCTCTGTACTTCGCGTTAGCCGGCACTCCGATAACGCTCCTTAAC LCPSQHPLYFALAGTPITLLN -1.834 0.011689 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23524 VHRRPITSYNPWDCYFLHHY 20 SLAY-screened peptide P1874 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCACCGCCGTCCTATCACTTCGTATAACCCCTGGGACTGCTATTTCCTTCACCATTATTAA VHRRPITSYNPWDCYFLHHY* -1.833 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23525 GTGFFVGINISNPPRLYVAW 20 SLAY-screened peptide P1875 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTACGGGCTTTTTTGTGGGCATCAATATCTCTAATCCCCCCAGGCTTTATGTTGCGTGGTAA GTGFFVGINISNPPRLYVAW* -1.832 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23526 SVHSRLPDVYGSYSPSSGGT 20 SLAY-screened peptide P1876 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGTCCACTCCAGGCTGCCCGATGTTTATGGGAGCTACTCCCCTAGTTCTGGGGGTACGTAA SVHSRLPDVYGSYSPSSGGT* -1.831 0.011554 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23527 WIPKRPELRGCSYGNPPESF 20 SLAY-screened peptide P1877 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGATTCCCAAGCGCCCGGAGTTGAGGGGCTGTTCTTACGGGAATCCTCCCGAGAGTTTCTAA WIPKRPELRGCSYGNPPESF* -1.831 0.00787 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23528 ILNENNQPWNRCVIYYLAQR 20 SLAY-screened peptide P1878 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTTGAACGAGAATAACCAGCCGTGGAACCGCTGCGTCATTTATTACCTGGCCCAGCGTTAA ILNENNQPWNRCVIYYLAQR* -1.831 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23529 RIQPVHDR 8 SLAY-screened peptide P1879 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATTCAGCCTGTTCATGATCGCTAGTGGATTAATTACGGCCAGAGCATGCTTGATTCCTAA RIQPVHDR*WINYGQSMLDS* -1.831 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23530 YFPLCFRVNRSASSHRRFRR 20 SLAY-screened peptide P1880 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTTTCCTCTCTGCTTCCGTGTCAATCGTTCGGCTAGTTCCCATCGTCGTTTTCGTAGGTAA YFPLCFRVNRSASSHRRFRR* -1.831 0.030331 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23531 ISVVPTYRNKFDCTLCHHKY 20 SLAY-screened peptide P1881 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTCCGTGGTGCCTACGTATAGGAACAAGTTCGACTGCACTTTGTGTCATCACAAGTACTAA ISVVPTYRNKFDCTLCHHKY* -1.831 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23532 SCGHHFGTTNKANPRCYVVC 20 SLAY-screened peptide P1882 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTGTGGGCATCACTTTGGTACCACGAATAAGGCTAATCCGAGGTGTTATGTTGTCTGTTAA SCGHHFGTTNKANPRCYVVC* -1.83 0.000521 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23533 RHTYPSPISRVGSPRARTWI 20 SLAY-screened peptide P1883 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCACACTTACCCTAGTCCTATCTCTAGGGTGGGCTCCCCCCGTGCTCGGACTTGGATTTAA RHTYPSPISRVGSPRARTWI* -1.83 0.011328 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23534 WQIPPGCRIARA 12 SLAY-screened peptide P1884 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCAGATTCCTCCCGGTTGCCGTATCGCTCGGGCTTAGGTTTTCTCCCTTATCGAGCCCTAA WQIPPGCRIARA*VFSLIEP* -1.83 0.014309 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23535 YKSSKHRITQPNSTVQTCLR 20 SLAY-screened peptide P1885 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAAGTCCAGCAAGCACAGGATTACTCAGCCCAACTCGACTGTTCAGACTTGCTTGAGGTAA YKSSKHRITQPNSTVQTCLR* -1.829 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23536 LPLHGVADNHRDIARAVPI 19 SLAY-screened peptide P1886 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCTCTCCACGGGGTTGCGGACAACCACAGGGATATCGCTCGTGCCGTCCCTATCTAGTAA LPLHGVADNHRDIARAVPI** -1.829 0.000058 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23537 SIIDSEPTDRYYDRFYYYIF 20 SLAY-screened peptide P1887 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCATTATTGACTCCGAGCCTACTGATCGCTATTATGACCGCTTTTACTACTATATCTTCTAA SIIDSEPTDRYYDRFYYYIF* -1.828 0.000225 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23538 PNRAVRGFANISTTIPIGR 19 SLAY-screened peptide P1888 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAACCGGGCTGTGAGGGGCTTTGCCAATATTTCTACGACTATTCCGATTGGCCGCTAGTAA PNRAVRGFANISTTIPIGR** -1.828 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23539 RTPRPPRVPTIDPYFLMDMY 20 SLAY-screened peptide P1889 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACCCCGCGGCCCCCCCGTGTGCCTACTATTGATCCGTATTTTCTTATGGATATGTATTAA RTPRPPRVPTIDPYFLMDMY* -1.828 0.007071 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23540 RLPYKFFSGIIRCAVWIIYP 20 SLAY-screened peptide P1890 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTGCCCTATAAGTTCTTCTCGGGTATTATTCGCTGTGCCGTGTGGATTATTTATCCCTAA RLPYKFFSGIIRCAVWIIYP* -1.828 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23541 PLVCSRCAVTVMSCL 15 SLAY-screened peptide P1891 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTGTCTGCTCGCGTTGCGCCGTGACCGTAATGTCGTGTTTGTGAGCTTTACCTCTTAAC PLVCSRCAVTVMSCL*ALPLN -1.828 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23542 QTSHNTWDHFSSSIHVSDNL 20 SLAY-screened peptide P1892 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGACCTCTCACAATACCTGGGATCATTTTTCTTCGTCTATTCATGTTTCTGATAACCTTTAA QTSHNTWDHFSSSIHVSDNL* -1.827 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23543 TRASHARHWHPHLLYYQGTL 20 SLAY-screened peptide P1893 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCGCGCTTCCCATGCCCGCCACTGGCACCCCCACCTTCTGTATTACCAGGGGACTCTTTAA TRASHARHWHPHLLYYQGTL* -1.827 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23544 SLLVLMISPTVRRTGFTRSSN 21 SLAY-screened peptide P1894 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTTGTTGGTGCTGATGATTAGTCCCACGGTTCGTCGGACTGGTTTTACACGATCGTCTAAC SLLVLMISPTVRRTGFTRSSN -1.827 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23545 PPTRRSTTRATAGYDAPAHL 20 SLAY-screened peptide P1895 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCCACTAGGCGGTCCACGACGCGCGCCACCGCCGGCTACGACGCGCCGGCTCACCTCTAA PPTRRSTTRATAGYDAPAHL* -1.826 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23546 NKEPVDHSTEGNQNLDYSSC 20 SLAY-screened peptide P1896 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAAGGAGCCGGTCGACCACAGTACGGAGGGCAATCAGAATCTGGACTATAGTTCGTGCTAA NKEPVDHSTEGNQNLDYSSC* -1.826 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23547 GEAPDVADSICSLHWGL 17 SLAY-screened peptide P1897 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGAGGCTCCCGATGTTGCTGATTCTATCTGTTCTTTGCACTGGGGGCTTTAGACCATTTAA GEAPDVADSICSLHWGL*TI* -1.825 0.004574 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23548 ATRDDSE 7 SLAY-screened peptide P1898 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTACTCGCGATGACTCGGAGTAGCCAGCCGGACTCCTACCTCGAAGTATCAGTGTTTTTAAC ATRDDSE*PAGLLPRSISVFN -1.824 0.019832 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23549 RALSLLCTLRRLFLPSI 17 SLAY-screened peptide P1899 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGCCCTCAGCCTTCTTTGTACCCTTAGGCGTTTGTTTCTTCCCTCTATTTAGAAGATGTAA RALSLLCTLRRLFLPSI*KM* -1.824 0.002262 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23550 YASWRSAAYFDIMGVFYSLP 20 SLAY-screened peptide P1900 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCTTCGTGGCGGTCCGCTGCTTACTTCGACATCATGGGCGTCTTTTACAGTCTCCCCTAA YASWRSAAYFDIMGVFYSLP* -1.823 0.001628 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23551 LWGVSCSPRGNPCRCLGLDA 20 SLAY-screened peptide P1901 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGGGGCGTCTCTTGCAGCCCGCGTGGTAACCCGTGCCGTTGTCTTGGTTTGGACGCTTAA LWGVSCSPRGNPCRCLGLDA* -1.823 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23552 RAHLITLSFVLLASEEQYDR 20 SLAY-screened peptide P1902 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGCCCACCTTATCACCTTGTCCTTTGTTCTCCTTGCCAGCGAGGAGCAGTATGACCGGTAA RAHLITLSFVLLASEEQYDR* -1.823 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23553 ARGWMPYGHYMSVAQTANYM 20 SLAY-screened peptide P1903 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGCGGCTGGATGCCTTATGGTCACTACATGTCCGTGGCGCAGACCGCGAATTACATGTAA ARGWMPYGHYMSVAQTANYM* -1.823 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23554 PPFILVVCHYL 11 SLAY-screened peptide P1904 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCTTTATTCTGGTTGTTTGCCATTACTTGTAGCCCGCCACCTGGATCAGCTCGCGCTAA PPFILVVCHYL*PATWISSR* -1.823 0.012081 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23555 LDSFPGHSTYPRHPLHCVLL 20 SLAY-screened peptide P1905 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGACAGCTTCCCTGGTCATTCCACGTATCCCAGGCACCCCCTCCACTGTGTCCTCCTTTAA LDSFPGHSTYPRHPLHCVLL* -1.822 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23556 STSALHIIAFGSPPRAFSRGN 21 SLAY-screened peptide P1906 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTACGTCCGCTCTCCATATCATTGCATTTGGATCTCCTCCGCGAGCTTTTTCCCGCGGTAAC STSALHIIAFGSPPRAFSRGN -1.822 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23557 SSTNHFIYYIGLLHLH 16 SLAY-screened peptide P1907 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTCTACTAACCACTTTATCTACTATATCGGCTTGCTCCACCTCCACTAGCTCGATCGTTAA SSTNHFIYYIGLLHLH*LDR* -1.821 0.006986 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23558 LEDDNPQALLYA 12 SLAY-screened peptide P1908 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGAGGACGATAATCCGCAGGCGCTGCTGTACGCCTAGTACCTTCACTGTTTCTGGTACTAA LEDDNPQALLYA*YLHCFWY* -1.821 0.000176 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23559 APWNAYHLSDFRTQSHRLST 20 SLAY-screened peptide P1909 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCGTGGAACGCTTACCACCTCTCCGATTTTCGCACTCAGTCGCATCGCCTGTCCACGTAA APWNAYHLSDFRTQSHRLST* -1.82 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23560 FTMSSDNSNSKFNRSYFHQR 20 SLAY-screened peptide P1910 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACGATGTCTAGTGATAACTCCAACAGTAAGTTTAATCGTAGCTATTTCCATCAGAGGTAA FTMSSDNSNSKFNRSYFHQR* -1.82 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23561 PL 2 SLAY-screened peptide P1911 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTGTAGGCTAATGCGCGTCCCGATGTGGATGACTCGTCCAGTCAGATCGATGGGGACTAA PL*ANARPDVDDSSSQIDGD* -1.82 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23562 GFQCYCPLNIHVI 13 SLAY-screened peptide P1912 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTTTCAGTGCTACTGTCCCCTGAACATCCACGTTATTTAGCCTGTTGGTTTGTTTCATTAA GFQCYCPLNIHVI*PVGLFH* -1.819 0.007971 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23563 RML 3 SLAY-screened peptide P1913 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATGCTTTAGTCGGACTACATCATTAAGCGGGCCACGTCGAATATGCAGAACAATTTCTAA RML*SDYIIKRATSNMQNNF* -1.819 0.00157 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23564 PGATDPWRLVSHRFRHSGRP 20 SLAY-screened peptide P1914 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGGCGCCACCGATCCTTGGCGTCTGGTGTCCCATCGCTTCCGTCACAGTGGTCGGCCGTAA PGATDPWRLVSHRFRHSGRP* -1.819 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23565 PRGPECPIVTSLLVRVTYSS 20 SLAY-screened peptide P1915 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGGGGCCCTGAGTGTCCGATTGTTACTTCTCTCCTTGTTAGGGTCACTTATTCCTCTTAA PRGPECPIVTSLLVRVTYSS* -1.819 0.009443 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23566 VLFYLRLGRTIVVTYNLSNT 20 SLAY-screened peptide P1916 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCTTTTCTACTTGCGCCTGGGCCGGACTATCGTTGTCACGTATAATCTCTCTAATACCTAA VLFYLRLGRTIVVTYNLSNT* -1.819 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23567 MTHTPVYSDVLHLPPSLSCVT 21 SLAY-screened peptide P1917 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGACCCACACCCCAGTTTATTCAGACGTACTTCATTTACCACCATCCTTGTCGTGCGTAACT MTHTPVYSDVLHLPPSLSCVT -1.819 0.000089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23568 STNFPERTVWHHMSSASTNS 20 SLAY-screened peptide P1918 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGACTAACTTCCCCGAGCGGACCGTCTGGCATCACATGTCTTCTGCTAGTACCAACAGCTAA STNFPERTVWHHMSSASTNS* -1.817 0.015958 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23569 LIQTEPQSTSLAYSATFGSY 20 SLAY-screened peptide P1919 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATTCAGACTGAGCCCCAGTCGACCAGCCTGGCCTATAGTGCGACCTTTGGGTCCTATTAA LIQTEPQSTSLAYSATFGSY* -1.817 0.003589 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23570 MSACSSPVNFYRQTCNSYKA 20 SLAY-screened peptide P1920 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTCCGCGTGCTCTTCTCCTGTCAATTTTTATCGCCAGACTTGTAATAGTTACAAGGCTTAA MSACSSPVNFYRQTCNSYKA* -1.817 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23571 RRNSFLRCLTGRVGSTHVNP 20 SLAY-screened peptide P1921 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGGAACTCTTTCCTCAGGTGTCTTACGGGTCGCGTTGGCTCGACTCACGTCAATCCGTAA RRNSFLRCLTGRVGSTHVNP* -1.816 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23572 PSHAPPTLPATTV 13 SLAY-screened peptide P1922 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCCCATGCCCCTCCGACGCTCCCTGCGACCACTGTTTAGGACACTCCGCACTCGCGCTAA PSHAPPTLPATTV*DTPHSR* -1.816 0.00051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23573 DGYYFWHIDC 10 SLAY-screened peptide P1923 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGGCTATTATTTCTGGCACATCGATTGTTAGACGCAGGCTATGTATACTGAGGGCAACTAA DGYYFWHIDC*TQAMYTEGN* -1.815 0.00034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23574 ESTCYLPSCHPSPAVRWGSA 20 SLAY-screened peptide P1924 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAGCACCTGCTACCTCCCCAGCTGTCACCCGTCTCCGGCGGTCAGGTGGGGTTCTGCCTAA ESTCYLPSCHPSPAVRWGSA* -1.815 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23575 SGIS 4 SLAY-screened peptide P1925 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGGTATTTCGTAGGCTCGCAGCCCGATGGCGGTTACTCTTGTTTCGTACCCGCTTACTTAA SGIS*ARSPMAVTLVSYPLT* -1.815 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23576 YVRTNAPQLAIFSAYPAHVF 20 SLAY-screened peptide P1926 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGTGCGCACTAACGCCCCCCAGTTGGCTATCTTCAGCGCTTATCCTGCGCATGTGTTCTAA YVRTNAPQLAIFSAYPAHVF* -1.815 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23577 PPNTATCLPTPFPYAKLRYT 20 SLAY-screened peptide P1927 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCGAACACTGCCACGTGCCTTCCTACTCCTTTTCCTTATGCGAAGCTTCGTTATACGTAA PPNTATCLPTPFPYAKLRYT* -1.815 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23578 HANYASCFARGETSSPCNHN 20 SLAY-screened peptide P1928 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCTAATTATGCTTCTTGTTTTGCCAGGGGCGAGACGTCGAGTCCGTGTAACCACAATTAA HANYASCFARGETSSPCNHN* -1.815 0.0122 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23579 VCKWITTWKQILSPNKHLRP 20 SLAY-screened peptide P1929 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTGCAAGTGGATTACTACCTGGAAGCAGATTCTCTCCCCGAATAAGCATTTGCGTCCCTAA VCKWITTWKQILSPNKHLRP* -1.815 0.013632 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23580 PPTHYCPNWYRIFRQPLLVL 20 SLAY-screened peptide P1930 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTACTCATTATTGTCCTAACTGGTACCGCATCTTTCGTCAGCCCTTGCTCGTTCTGTAA PPTHYCPNWYRIFRQPLLVL* -1.814 0.001752 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23581 SSSTMQCYELMFQ 13 SLAY-screened peptide P1931 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCTTCTACCATGCAGTGCTACGAGCTCATGTTCCAGTAGACCCGTATTTGGGTCATTTAA SSSTMQCYELMFQ*TRIWVI* -1.814 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23582 PSPFPNEPSDSPPFCYLLVA 20 SLAY-screened peptide P1932 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCCCCTTCCCCAACGAGCCGTCCGATTCGCCGCCGTTCTGCTATCTCCTGGTTGCGTAA PSPFPNEPSDSPPFCYLLVA* -1.814 0.002075 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23583 QSVPKRRSNPTIQDLSRNCS 20 SLAY-screened peptide P1933 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTCCGTCCCGAAGAGGCGCAGTAATCCTACCATTCAGGATCTGTCGCGCAACTGCTCGTAA QSVPKRRSNPTIQDLSRNCS* -1.814 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23584 PAHTPNLLTDSFTHTRMNIT 20 SLAY-screened peptide P1934 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCCCATACCCCTAATCTTCTCACCGATTCGTTTACCCATACGAGGATGAATATTACCTAA PAHTPNLLTDSFTHTRMNIT* -1.814 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23585 IR 2 SLAY-screened peptide P1935 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCGGTAGCGCTAGTACGAGATCCCGGGGCGTTACATTAATATCAGCAGGCTTTTTAATTAA IR*R*YEIPGRYINISRLFN* -1.813 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23586 PVTMDSPTPDQRVTAHFALT 20 SLAY-screened peptide P1936 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTTACCATGGATTCCCCTACGCCGGATCAGCGCGTTACTGCGCATTTTGCTCTCACCTAA PVTMDSPTPDQRVTAHFALT* -1.813 0.016429 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23587 CTNLGVRHLTDTMGRRVISFN 21 SLAY-screened peptide P1937 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCACGAATCTTGGCGTTCGTCATCTTACTGACACTATGGGCAGGAGAGTGATATCGTTTAAC CTNLGVRHLTDTMGRRVISFN -1.813 0.007014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23588 YTSGFCLPIHEMA 13 SLAY-screened peptide P1938 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACGTCGGGCTTCTGCCTCCCGATCCATGAGATGGCCTAGCCCCCCTACCATAAGGAGTAA YTSGFCLPIHEMA*PPYHKE* -1.812 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23589 PSTCSFYQCEGCSNIIGLDG 20 SLAY-screened peptide P1939 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGTACCTGTAGCTTTTATCAGTGTGAGGGTTGCTCTAATATTATTGGTCTGGATGGCTAA PSTCSFYQCEGCSNIIGLDG* -1.812 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23590 ADLLPRSHYNSYMHIEEFFI 20 SLAY-screened peptide P1940 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGACTTGCTGCCTCGTTCGCACTACAACTCGTATATGCATATCGAGGAGTTTTTCATCTAA ADLLPRSHYNSYMHIEEFFI* -1.812 0.022619 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23591 AIALPSGQHGIPHVIY 16 SLAY-screened peptide P1941 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCATTGCTCTTCCCTCCGGCCAGCACGGCATTCCTCATGTCATTTATTAGAAGACCTGGTAA AIALPSGQHGIPHVIY*KTW* -1.811 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23592 YSRVIRITLPDTGFGPCHDF 20 SLAY-screened peptide P1942 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCCCGGGTGATTAGGATTACGTTGCCGGACACTGGTTTTGGGCCTTGCCATGACTTCTAA YSRVIRITLPDTGFGPCHDF* -1.811 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23593 PHPRDDEDHFHRNNSLPA 18 SLAY-screened peptide P1943 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCACCCGCGGGATGATGAGGATCACTTCCATCGTAATAATAGCCTTCCCGCTTAACGTAAC PHPRDDEDHFHRNNSLPA*RN -1.811 0.001299 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23594 LNNRNRSLPGNPTIEYFVVE 20 SLAY-screened peptide P1944 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAATAACCGGAACCGCTCGCTGCCCGGGAACCCGACTATTGAGTATTTCGTTGTGGAGTAA LNNRNRSLPGNPTIEYFVVE* -1.811 0.00027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23595 HSTWVAGSYYAIDRSFGSSL 20 SLAY-screened peptide P1945 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCCACGTGGGTGGCTGGCTCGTATTACGCTATTGATAGGTCCTTTGGCTCTTCCCTCTAA HSTWVAGSYYAIDRSFGSSL* -1.809 0.000984 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23596 LVRDTTFITIRGDNTERALV 20 SLAY-screened peptide P1946 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTCCGCGACACCACCTTTATCACGATCCGCGGTGATAATACCGAGAGGGCCTTGGTGTAA LVRDTTFITIRGDNTERALV* -1.809 0.000436 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23597 TVLPYRPHWADTDNNFVLQN 20 SLAY-screened peptide P1947 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTCCTTCCTTATCGCCCTCACTGGGCGGATACGGATAATAACTTTGTTCTGCAGAACTAA TVLPYRPHWADTDNNFVLQN* -1.809 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23598 STSTE 5 SLAY-screened peptide P1948 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGACGTCTACGGAGTAGGCCACTCAGCACCGGTGCATCGCCTTCGTGTCCTACCATTGTTAA STSTE*ATQHRCIAFVSYHC* -1.809 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23599 IRHG 4 SLAY-screened peptide P1949 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAGGCACGGCTAGATTTTCGCTCCCGTTACTAATATTCACTATAGGAATAATATTGCTAAC IRHG*IFAPVTNIHYRNNIAN -1.809 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23600 NLIKGFARLFVCLFQSRFCR 20 SLAY-screened peptide P1950 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCTTATCAAGGGCTTCGCTCGTCTTTTCGTTTGTCTTTTCCAGTCCCGGTTTTGCCGGTAA NLIKGFARLFVCLFQSRFCR* -1.808 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23601 CNTTFPPYFILPILHRNHHM 20 SLAY-screened peptide P1951 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAATACCACCTTTCCCCCGTATTTCATTCTGCCCATTTTGCATCGCAACCATCATATGTAA CNTTFPPYFILPILHRNHHM* -1.808 0.023565 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23602 VSSMGPTLLTSLSGQLKQTY 20 SLAY-screened peptide P1952 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTCTAGTATGGGCCCTACCCTGCTCACTAGTCTCTCCGGCCAGCTCAAGCAGACCTATTAA VSSMGPTLLTSLSGQLKQTY* -1.808 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23603 WALAIYSLAHNVDESDWRTL 20 SLAY-screened peptide P1953 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGGCCCTTGCTATTTACAGTCTCGCTCATAACGTTGATGAGTCGGACTGGCGCACTCTTTAA WALAIYSLAHNVDESDWRTL* -1.807 0.000091 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23604 HSYNRGRPKNSTYS 14 SLAY-screened peptide P1954 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAGCTACAATAGGGGTCGTCCTAAGAATAGCACCTACTCTTAGGTTAACCCTTTTCAGTAA HSYNRGRPKNSTYS*VNPFQ* -1.807 0.000138 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23605 PWSPPWVILRPAILLFASTRN 21 SLAY-screened peptide P1955 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGGTCCCCACCCTGGGTTATCCTCAGGCCCGCCATTCTACTGTTTGCAAGCACGCGTAAC PWSPPWVILRPAILLFASTRN -1.807 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23606 DLSPCLTAPPVTTLDPLAV 19 SLAY-screened peptide P1956 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCTCAGTCCCTGTCTTACGGCCCCTCCCGTTACGACCCTGGACCCTCTCGCGGTGTAGTAA DLSPCLTAPPVTTLDPLAV** -1.806 0.00163 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23607 TAASLSSVANSQLLSENAFT 20 SLAY-screened peptide P1957 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCTGCCAGCCTCTCCTCCGTGGCTAACTCCCAGCTGCTTTCGGAGAACGCTTTCACGTAA TAASLSSVANSQLLSENAFT* -1.806 0.006977 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23608 THIDQISPCYLHVSDS 16 SLAY-screened peptide P1958 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCACATTGACCAGATTTCCCCCTGCTATCTGCATGTGAGTGATTCTTAGCAGCACGCCTAA THIDQISPCYLHVSDS*QHA* -1.806 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23609 DICQAHNDRQS 11 SLAY-screened peptide P1959 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACATTTGTCAGGCCCACAACGATAGGCAGAGCTAGTAGCGGAAGTGCTTCCGGGATAACTAA DICQAHNDRQS**RKCFRDN* -1.806 0.006853 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23610 DDSTKDPYRLLCFRNYSMNL 20 SLAY-screened peptide P1960 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGACTCCACCAAGGACCCCTACCGTCTCCTGTGCTTTCGCAACTACTCTATGAATCTTTAA DDSTKDPYRLLCFRNYSMNL* -1.806 0.001398 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23611 TPRTFLTRTLTRMCNYVVDH 20 SLAY-screened peptide P1961 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCTCGGACCTTCCTTACCAGGACCCTTACGCGTATGTGCAATTACGTTGTCGATCACTAA TPRTFLTRTLTRMCNYVVDH* -1.805 0.00012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23612 SREPHSIHNNTCWQATLMIA 20 SLAY-screened peptide P1962 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCGCGAGCCCCACTCGATCCACAACAATACCTGTTGGCAGGCGACGCTTATGATTGCCTAA SREPHSIHNNTCWQATLMIA* -1.805 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23613 RLVGPDSLGTHSLAQYPTRP 20 SLAY-screened peptide P1963 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTTGTGGGTCCCGACAGCCTTGGTACGCATTCTCTGGCTCAGTACCCTACCAGGCCGTAA RLVGPDSLGTHSLAQYPTRP* -1.805 0.017147 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23614 HAILLIYLTLLIPSRTSARE 20 SLAY-screened peptide P1964 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCCATCTTGCTTATCTATCTTACCCTGCTCATCCCTTCGCGGACTTCCGCCCGCGAGTAA HAILLIYLTLLIPSRTSARE* -1.804 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23615 NQRFRSIHARLTGQNYWMLN 20 SLAY-screened peptide P1965 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCAGCGCTTCCGGTCCATTCACGCTCGGCTTACTGGCCAGAACTATTGGATGTTGAACTAA NQRFRSIHARLTGQNYWMLN* -1.804 0.001502 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23616 PMVEFHVPLAYRTTDENHRV 20 SLAY-screened peptide P1966 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATGGTGGAGTTTCATGTTCCCCTTGCCTACAGGACCACCGACGAGAATCACCGCGTTTAA PMVEFHVPLAYRTTDENHRV* -1.804 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23617 ILYWRPNRSTWAFTVTPIMV 20 SLAY-screened peptide P1967 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTCTACTGGCGTCCCAACCGCTCCACTTGGGCCTTCACCGTTACTCCCATCATGGTTTAA ILYWRPNRSTWAFTVTPIMV* -1.804 0.00586 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23618 ANSHHLYHLDHGFHNPTIRCN 21 SLAY-screened peptide P1968 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTAATAGTCATCACCTGTATCATCTTGACCACGGGTTTCACAATCCAACTATAAGGTGTAAC ANSHHLYHLDHGFHNPTIRCN -1.804 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23619 CYTPLYMFAVNLITDFSTIA 20 SLAY-screened peptide P1969 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTACACTCCTCTGTATATGTTCGCCGTTAATCTTATCACGGACTTCTCGACGATCGCCTAA CYTPLYMFAVNLITDFSTIA* -1.804 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23620 LWENPSIHFVSGFSVSITYL 20 SLAY-screened peptide P1970 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGGGAGAATCCTTCCATCCACTTCGTTTCCGGGTTCTCGGTGTCTATTACCTACCTTTAA LWENPSIHFVSGFSVSITYL* -1.804 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23621 KTWEVLTEFRLYTNILWTWD 20 SLAY-screened peptide P1971 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGACCTGGGAGGTTCTCACTGAGTTTCGGCTTTATACTAATATTCTTTGGACGTGGGATTAA KTWEVLTEFRLYTNILWTWD* -1.803 0.000052 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23622 HQRPSNMDC 9 SLAY-screened peptide P1972 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCAGAGGCCCTCCAATATGGATTGCTAGGCCAGGCGTCAGGAGGTCCGCCGTAGTAGTTAA HQRPSNMDC*ARRQEVRRSS* -1.803 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23623 TVAHLFNITNIHTNNLT 17 SLAY-screened peptide P1973 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTTGCCCACCTTTTTAACATTACGAATATCCACACGAACAATCTTACGTAGGACTCGTAA TVAHLFNITNIHTNNLT*DS* -1.803 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23624 LNDKDKTYAVLHIPYNWTPT 20 SLAY-screened peptide P1974 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAATGACAAGGACAAGACTTATGCGGTTCTCCACATTCCCTACAATTGGACGCCTACCTAA LNDKDKTYAVLHIPYNWTPT* -1.802 0.000383 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23625 MGLSPYNCTFVNPSHDMLQI 20 SLAY-screened peptide P1975 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGGCCTGTCTCCTTACAATTGTACCTTCGTTAACCCTTCTCATGATATGCTTCAGATCTAA MGLSPYNCTFVNPSHDMLQI* -1.801 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23626 CRKPVPTHVFTHFGYSIQIS 20 SLAY-screened peptide P1976 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCGTAAGCCTGTTCCCACGCACGTGTTTACTCACTTCGGTTATAGCATCCAGATCTCGTAA CRKPVPTHVFTHFGYSIQIS* -1.8 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23627 WTNTPHFYSA 10 SLAY-screened peptide P1977 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGACGAACACCCCCCACTTTTATAGTGCGTAGGAGAGGGTTGATACCACCACGCTGATCTAA WTNTPHFYSA*ERVDTTTLI* -1.8 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23628 LDPMPVLDPVLIEAHTAATR 20 SLAY-screened peptide P1978 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGATCCTATGCCTGTTCTTGATCCTGTGCTCATTGAGGCCCATACCGCCGCTACGCGCTAA LDPMPVLDPVLIEAHTAATR* -1.799 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23629 HAA 3 SLAY-screened peptide P1979 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCTGCTTAGCTTCACCGTAGTATGCCTTACAACAGTAACCCCTATTTTCCCACCAATTAA HAA*LHRSMPYNSNPYFPTN* -1.798 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23630 RINVPRGGFTKAFMFRPPPR 20 SLAY-screened peptide P1980 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGATCAACGTTCCCAGGGGCGGTTTCACCAAGGCGTTTATGTTCCGCCCGCCTCCTCGGTAA RINVPRGGFTKAFMFRPPPR* -1.798 0.007336 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23631 CRCTMPNLHLDALYMSFCPA 20 SLAY-screened peptide P1981 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCGGTGCACTATGCCTAATCTCCACTTGGACGCTCTTTACATGAGTTTCTGTCCTGCTTAA CRCTMPNLHLDALYMSFCPA* -1.798 0.012708 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23632 TWYQCHLYDPHCFKLAP 17 SLAY-screened peptide P1982 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTGGTACCAGTGCCATCTCTATGACCCTCACTGTTTCAAGTTGGCGCCTTAGAACGATTAA TWYQCHLYDPHCFKLAP*ND* -1.797 0.0014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23633 LKTTIDLSPVVLCGPNLHKT 20 SLAY-screened peptide P1983 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAAGACTACGATCGACCTGTCTCCGGTCGTCCTCTGCGGCCCTAATTTGCATAAGACCTAA LKTTIDLSPVVLCGPNLHKT* -1.797 0.001574 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23634 VPSLDTVGCIPVTDNNHSLT 20 SLAY-screened peptide P1984 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCGAGTCTTGATACTGTGGGGTGTATCCCTGTTACTGATAATAACCATTCCCTTACGTAA VPSLDTVGCIPVTDNNHSLT* -1.797 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23635 YSVHSTHHVLEQSSAFNNNI 20 SLAY-screened peptide P1985 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACAGTGTTCACAGTACTCATCACGTCCTTGAGCAGTCTAGTGCGTTTAACAACAACATCTAA YSVHSTHHVLEQSSAFNNNI* -1.797 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23636 SAPFLVRLPSMFT 13 SLAY-screened peptide P1986 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCCCCGTTCTTGGTCAGACTCCCCTCGATGTTTACTTGACGACTTTTCAGAGCCGCTAAC SAPFLVRLPSMFT*RLFRAAN -1.797 0.000347 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23637 EG 2 SLAY-screened peptide P1987 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGGTTAGCGTTAGAGTCTCTAGCGCCCTCAGCTCATTTGGAAGCCTTTTTCGAATGACTAA EG*R*SL*RPQLIWKPFSND* -1.796 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23638 RNNTFHFPKCLNKSFFHMQY 20 SLAY-screened peptide P1988 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAACAATACTTTTCATTTCCCTAAGTGCCTGAATAAGAGTTTCTTTCACATGCAGTATTAA RNNTFHFPKCLNKSFFHMQY* -1.796 0.000681 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23639 FSCSNPNPSYSSLPFTWWYL 20 SLAY-screened peptide P1989 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTCTTGCTCGAACCCTAACCCTTCCTATAGCTCCCTGCCGTTCACGTGGTGGTATCTCTAA FSCSNPNPSYSSLPFTWWYL* -1.796 0.00251 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23640 DYTHVFTFHLI 11 SLAY-screened peptide P1990 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTATACGCACGTGTTTACCTTCCATCTTATTTAGTCTACTAACATGTGTATCTGCTGTTAA DYTHVFTFHLI*STNMCICC* -1.795 0.003063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23641 REAFRMVYF 9 SLAY-screened peptide P1991 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGAGGCGTTTCGGATGGTTTACTTCTAGAGGTTCTACGATATCAGAATTCTGTTCCTTAAC REAFRMVYF*RFYDIRILFLN -1.795 0.031861 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23642 PP 2 SLAY-screened peptide P1992 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCCTAGTAGGACTCCTGTTCTGCTTATCATTTTTCGTCTCTCAACATTGATTTTTACTAA PP**DSCSAYHFSSLNIDFY* -1.795 0.010814 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23643 HDQCPSLTR 9 SLAY-screened peptide P1993 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGACCAGTGTCCTAGCCTTACTCGGTAGGCGTGTCCTGCCTCTTTTCAGTCTAATTACTAA HDQCPSLTR*ACPASFQSNY* -1.794 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23644 HYAPPCPRSPFNDYIIVHAI 20 SLAY-screened peptide P1994 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTATGCGCCCCCCTGCCCCAGGAGCCCTTTTAACGATTATATCATCGTTCACGCGATCTAA HYAPPCPRSPFNDYIIVHAI* -1.794 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23645 KGAASSKSTREELAFLHTDI 20 SLAY-screened peptide P1995 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGGGGGCCGCTTCCTCGAAGTCCACGCGGGAGGAGCTGGCTTTCCTTCATACGGATATCTAA KGAASSKSTREELAFLHTDI* -1.794 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23646 SPQESRWYRLQTFII 15 SLAY-screened peptide P1996 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCTCAGGAGTCTCGCTGGTACCGTCTTCAGACTTTCATCATTTGACCGCCCATAGTTAAC SPQESRWYRLQTFII*PPIVN -1.792 0.009361 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23647 MIAPTTISPPSRASYHNFCG 20 SLAY-screened peptide P1997 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGATTGCCCCTACCACTATTTCGCCTCCTTCCCGCGCCTCGTACCATAACTTCTGCGGTTAA MIAPTTISPPSRASYHNFCG* -1.792 0.000039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23648 TLFSIACENHAVACRFRRAS 20 SLAY-screened peptide P1998 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCTGTTTTCCATTGCTTGCGAGAATCATGCCGTCGCTTGCAGGTTTCGTCGCGCGTCTTAA TLFSIACENHAVACRFRRAS* -1.792 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23649 DPSSFYTRSAIGCTWCFYYC 20 SLAY-screened peptide P1999 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCCTCGTCTTTTTACACTCGTAGTGCTATTGGCTGCACCTGGTGCTTTTATTACTGCTAA DPSSFYTRSAIGCTWCFYYC* -1.792 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23650 CPFTTLSLIVCLRLSRWSTCR 21 SLAY-screened peptide P2000 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCGTTTACGACTCTCTCATTAATCGTCTGCTTAAGACTCTCGAGATGGTCGACCTGCAGG CPFTTLSLIVCLRLSRWSTCR -1.792 0.012705 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23651 LHNPHHHANGNYNYDYSTWK 20 SLAY-screened peptide P2001 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCACAATCCGCATCACCACGCCAACGGTAACTATAATTACGACTACTCTACCTGGAAGTAA LHNPHHHANGNYNYDYSTWK* -1.791 0.000992 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23652 PLQPNCLFFCLGGSVYYQDHY 21 SLAY-screened peptide P2002 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCCAGCCGAACTGCTTGTTCTTCTGTCTGGGCGGCTCTGTCTATTACCAGGACCATTAC PLQPNCLFFCLGGSVYYQDHY -1.791 0.000036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23653 IMLHLATFTSQNQGSYGASL 20 SLAY-screened peptide P2003 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCATGCTCCATCTGGCCACCTTCACTAGTCAGAATCAGGGTAGTTACGGGGCGTCTCTTTAA IMLHLATFTSQNQGSYGASL* -1.791 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23654 FNFILMPWHLIICLRTRISI 20 SLAY-screened peptide P2004 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAACTTCATTCTTATGCCCTGGCATCTCATCATTTGTCTGCGTACTCGGATTTCTATTTAA FNFILMPWHLIICLRTRISI* -1.791 0.022296 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23655 IVMADTPNFTTRYIKYTVKD 20 SLAY-screened peptide P2005 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGTGATGGCGGACACCCCGAACTTTACCACGCGGTACATTAAGTACACTGTTAAGGACTAA IVMADTPNFTTRYIKYTVKD* -1.79 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23656 PYPLQPTNYNSETEPKDDNA 20 SLAY-screened peptide P2006 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTATCCTCTGCAGCCCACTAACTACAATAGTGAGACGGAGCCTAAGGACGACAATGCGTAA PYPLQPTNYNSETEPKDDNA* -1.79 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23657 CLYIRMHHPTHSHCATAYNL 20 SLAY-screened peptide P2007 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCTACATTAGGATGCATCACCCCACTCATAGCCATTGTGCGACGGCTTATAACCTCTAA CLYIRMHHPTHSHCATAYNL* -1.79 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23658 PCSPFAPYRFPMLRWARVSA 20 SLAY-screened peptide P2008 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTAGTCCGTTCGCCCCTTATCGGTTTCCCATGCTGAGGTGGGCTCGTGTGAGCGCCTAA PCSPFAPYRFPMLRWARVSA* -1.79 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23659 PSTGCINNENFSTPMPVYII 20 SLAY-screened peptide P2009 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGTACCGGTTGTATCAACAACGAGAACTTTTCCACTCCTATGCCTGTGTATATTATTTAA PSTGCINNENFSTPMPVYII* -1.79 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23660 SSSAALFQPPYSLPDSELAN 20 SLAY-screened peptide P2010 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCTTCCGCGGCGCTCTTCCAGCCCCCTTATAGCCTTCCTGACAGTGAGCTTGCGAACTAA SSSAALFQPPYSLPDSELAN* -1.789 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23661 PV 2 SLAY-screened peptide P2011 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTCTAGCCCCAGTGGCTTCCGCGTCTCCCTCTTATTAACTACCTGTTCGCCCTGCGCTAA PV*PQWLPRLPLINYLFALR* -1.789 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23662 SAGRFIPGTPIMNVMYPCVV 20 SLAY-screened peptide P2012 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGCTGGGCGCTTTATTCCCGGGACCCCTATCATGAATGTCATGTATCCTTGCGTTGTTTAA SAGRFIPGTPIMNVMYPCVV* -1.789 0.000048 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23663 INIILRLILNFFYVFWLANS 20 SLAY-screened peptide P2013 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAACATTATTCTTCGCCTGATCCTGAATTTCTTCTACGTCTTCTGGCTTGCTAATTCTTAA INIILRLILNFFYVFWLANS* -1.789 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23664 DACSYFITYRSITKDTCTCY 20 SLAY-screened peptide P2014 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGCTTGCTCGTACTTCATCACTTACCGTAGTATTACGAAGGATACCTGTACTTGTTATTAA DACSYFITYRSITKDTCTCY* -1.788 0.003591 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23665 TLDFTKPVISVNARSPRTQK 20 SLAY-screened peptide P2015 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTCGATTTCACCAAGCCTGTTATCTCGGTCAATGCGAGGTCTCCCCGCACCCAGAAGTAA TLDFTKPVISVNARSPRTQK* -1.788 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23666 LTDYNSNFIPNSALLLHTHR 20 SLAY-screened peptide P2016 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCACCGACTACAATTCGAACTTTATCCCGAATAGCGCTCTTCTTTTGCATACTCACCGGTAA LTDYNSNFIPNSALLLHTHR* -1.788 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23667 PAISRCFAKRYYATHESTVD 20 SLAY-screened peptide P2017 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCTATCTCTCGCTGTTTTGCCAAGCGCTACTATGCCACCCATGAGTCTACTGTCGACTAA PAISRCFAKRYYATHESTVD* -1.788 0.001598 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23668 RCSPAGADPRHHTSIYDDDG 20 SLAY-screened peptide P2018 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTGTAGCCCTGCCGGGGCTGACCCGCGTCACCATACGTCTATTTACGATGACGACGGTTAA RCSPAGADPRHHTSIYDDDG* -1.787 0.002126 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23669 HCHHVINAKNSSMSSSVDYI 20 SLAY-screened peptide P2019 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGCCACCATGTTATTAATGCCAAGAACAGTAGCATGTCCTCTTCCGTTGACTATATTTAA HCHHVINAKNSSMSSSVDYI* -1.787 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23670 NFRACQPTSNDSDLVN 16 SLAY-screened peptide P2020 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTTTCGGGCGTGTCAGCCTACTTCCAATGACTCGGATCTGGTCAATTAGATTATTTTCTAA NFRACQPTSNDSDLVN*IIF* -1.787 0.000128 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23671 HQAFQHTGSPHTVHPLSHRH 20 SLAY-screened peptide P2021 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCAGGCGTTCCAGCACACTGGCTCGCCGCACACGGTGCACCCCCTTAGTCATAGGCACTAA HQAFQHTGSPHTVHPLSHRH* -1.786 0.000548 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23672 QITYHTAPIRVITNFQVFDG 20 SLAY-screened peptide P2022 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGATTACTTACCACACGGCGCCTATCAGGGTCATTACGAATTTTCAGGTTTTTGACGGTTAA QITYHTAPIRVITNFQVFDG* -1.786 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23673 PRM 3 SLAY-screened peptide P2023 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTATGTAGCGCATCCCCGGTCCTAACGTCCTTTGCTTGTGCGGTGCCCCCCTCTTGTAA PRM*RIPGPNVLCLCGAPLL* -1.786 0.004325 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23674 VARAHNTLCTSHRLLCFNFY 20 SLAY-screened peptide P2024 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGCCCGTGCGCATAATACCCTTTGTACCAGTCATCGTCTTCTTTGCTTCAATTTTTATTAA VARAHNTLCTSHRLLCFNFY* -1.785 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23675 QHTRSKLFCTLSPNRRIAIY 20 SLAY-screened peptide P2025 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCATACGCGCTCTAAGCTTTTCTGCACTCTTTCTCCTAACCGTCGGATCGCCATCTATTAA QHTRSKLFCTLSPNRRIAIY* -1.785 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23676 PHLQSWGSRHPPLVSCDNTS 20 SLAY-screened peptide P2026 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCACTTGCAGAGTTGGGGGTCCCGCCATCCTCCCCTCGTCTCCTGTGACAATACTTCTTAA PHLQSWGSRHPPLVSCDNTS* -1.785 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23677 LSIIICMIYLPFKMSVIQTD 20 SLAY-screened peptide P2027 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGAGCATTATCATCTGTATGATCTATCTCCCCTTTAAGATGTCTGTCATTCAGACTGATTAA LSIIICMIYLPFKMSVIQTD* -1.785 0.000085 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23678 GPTPRCTSHSWTSPPMIFII 20 SLAY-screened peptide P2028 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCCCACCCCGCGCTGTACCTCGCACAGCTGGACTTCTCCGCCGATGATTTTCATTATTTAA GPTPRCTSHSWTSPPMIFII* -1.785 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23679 ARIT 4 SLAY-screened peptide P2029 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGGATCACTTAGAGTTGGATCCTGCCGACTACCACTTCCCAGCATACTCGTGTTTTTTAA ARIT*SWILPTTTSQHTRVF* -1.785 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23680 PAPVLGSLIRTTPPGAPCFH 20 SLAY-screened peptide P2030 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCTCCTGTCTTGGGGAGTCTCATTCGGACTACTCCTCCTGGTGCCCCGTGTTTCCATTAA PAPVLGSLIRTTPPGAPCFH* -1.784 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23681 SLTYQYATPVSNNMSYADLD 20 SLAY-screened peptide P2031 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCTTACCTACCAGTATGCGACTCCTGTTAGCAATAATATGTCGTACGCTGATCTTGATTAA SLTYQYATPVSNNMSYADLD* -1.784 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23682 PLSRSPTRSAHRYGNRDSNA 20 SLAY-screened peptide P2032 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTTTCCCGTAGCCCGACGCGTAGTGCGCATCGCTACGGCAATCGGGACTCTAATGCTTAA PLSRSPTRSAHRYGNRDSNA* -1.784 0.000172 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23683 SASHSTGYLYYPKSPCTNAN 20 SLAY-screened peptide P2033 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCGTCTCATTCCACCGGTTACCTCTATTATCCTAAGTCTCCTTGCACCAACGCTAACTAA SASHSTGYLYYPKSPCTNAN* -1.784 0.002517 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23684 CAALFPRPHHVPPDPLDPDT 20 SLAY-screened peptide P2034 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCTGCCTTGTTTCCGCGTCCGCATCATGTTCCGCCTGATCCCCTCGATCCCGATACGTAA CAALFPRPHHVPPDPLDPDT* -1.784 0.002706 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23685 APPFGHPYICSKSG 14 SLAY-screened peptide P2035 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCGCCCTTTGGCCACCCCTATATTTGCTCTAAGTCTGGGTAGCGGTTTACTCGTGATTAA APPFGHPYICSKSG*RFTRD* -1.784 0.007807 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23686 YYTGPTTHNWHFALESDSRD 20 SLAY-screened peptide P2036 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTATACTGGGCCGACCACCCATAACTGGCACTTCGCCCTGGAGTCTGATTCTAGGGACTAA YYTGPTTHNWHFALESDSRD* -1.783 0.01191 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23687 PLDYHTARRARCYHSFGHYH 20 SLAY-screened peptide P2037 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCGACTATCATACTGCCCGCCGCGCTCGTTGTTACCACAGTTTTGGGCATTATCATTAA PLDYHTARRARCYHSFGHYH* -1.783 0.001239 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23688 ICFQRLYNQALYHATLRTRH 20 SLAY-screened peptide P2038 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTGCTTCCAGCGCCTCTATAACCAGGCTCTCTATCACGCTACTCTCAGGACTCGGCACTAA ICFQRLYNQALYHATLRTRH* -1.782 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23689 REEHTHYACSFINNVPNRWY 20 SLAY-screened peptide P2039 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGAGGAGCACACCCATTATGCTTGCTCGTTTATTAATAATGTTCCCAACCGCTGGTACTAA REEHTHYACSFINNVPNRWY* -1.782 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23690 KTQQNFGI 8 SLAY-screened peptide P2040 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGACGCAGCAGAACTTTGGGATTTAGAAGAAGAACCATCGCAATCCGTTGAAGTTGCTTTAA KTQQNFGI*KKNHRNPLKLL* -1.782 0.004999 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23691 NSCPLAPIVRATYTWSIVVC 20 SLAY-screened peptide P2041 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCGTGCCCCTTGGCCCCTATTGTTCGTGCCACCTACACTTGGTCGATCGTCGTTTGTTAA NSCPLAPIVRATYTWSIVVC* -1.781 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23692 VITTFSNKTSSGHRPTCTAR 20 SLAY-screened peptide P2042 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTATTACCACCTTTTCGAACAAGACGTCGTCTGGCCACAGGCCCACGTGCACTGCTCGTTAA VITTFSNKTSSGHRPTCTAR* -1.781 0.004203 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23693 SDSTSCDLVFEYSLI 15 SLAY-screened peptide P2043 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGACTCTACCTCCTGTGACCTGGTCTTTGAGTACAGTCTTATCTAGTTCCCTTGGGTGTAA SDSTSCDLVFEYSLI*FPWV* -1.78 0.020452 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23694 YQFHLHPPNVRPSIVYTVRY 20 SLAY-screened peptide P2044 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCAGTTTCATCTTCATCCTCCGAATGTTCGCCCGTCTATCGTCTATACCGTGCGGTACTAA YQFHLHPPNVRPSIVYTVRY* -1.78 0.008137 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23695 SPQQANNAIRAYFNALYDCN 20 SLAY-screened peptide P2045 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCCTCAGCAGGCGAATAATGCCATCCGGGCTTACTTTAATGCTCTCTATGACTGCAATTAA SPQQANNAIRAYFNALYDCN* -1.78 0.004334 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23696 RNMMFPDCLGGNPKVSPILFN 21 SLAY-screened peptide P2046 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAATATGATGTTTCCGGATTGCCTTGGCGGTAACCCCAAGGTCTCTCCAATACTTTTTAAC RNMMFPDCLGGNPKVSPILFN -1.78 0.005228 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23697 FPAPNYV 7 SLAY-screened peptide P2047 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCCGCGCCTAATTACGTGTAGGGCCGTTGGCAGTTCTACTCGCAGACCCCTAAGATCTAA FPAPNYV*GRWQFYSQTPKI* -1.779 0.012605 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23698 FSVNTTLAQAEVIGYHDI 18 SLAY-screened peptide P2048 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTCCGTCAATACTACCCTTGCGCAGGCGGAGGTGATTGGCTACCACGACATTTAGCATTAA FSVNTTLAQAEVIGYHDI*H* -1.779 0.011524 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23699 TAHHFLIPLVPTKMILFSRH 20 SLAY-screened peptide P2049 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCCCATCATTTCCTTATTCCTCTGGTTCCTACTAAGATGATCCTGTTCTCGCGTCACTAA TAHHFLIPLVPTKMILFSRH* -1.779 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23700 PLLTRATISLHTHTPQDANR 20 SLAY-screened peptide P2050 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCTTGACGCGCGCCACGATTTCTCTGCACACGCACACGCCCCAGGACGCTAACCGCTAA PLLTRATISLHTHTPQDANR* -1.779 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23701 AFTCYITHYSTPSNQRTMNT 20 SLAY-screened peptide P2051 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTTTACTTGTTACATTACCCATTATTCTACCCCGTCGAATCAGCGTACTATGAACACCTAA AFTCYITHYSTPSNQRTMNT* -1.778 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23702 QVSFNPSSTTYTD 13 SLAY-screened peptide P2052 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGTTAGCTTTAATCCTTCGTCGACTACGTATACTGATTAGTGGTTCATGGGTAATGACTAA QVSFNPSSTTYTD*WFMGND* -1.778 0.000625 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23703 DIQIDRTHHNFKITLTLTCCN 21 SLAY-screened peptide P2053 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATATTCAGATTGATCGCACGCACCATAATTTCAAAATCACCCTAACCCTCACGTGTTGTAAC DIQIDRTHHNFKITLTLTCCN -1.778 0.009228 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23704 PRLDTCT 7 SLAY-screened peptide P2054 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGGTTGGACACTTGTACTTAGATTCCCGCTAATGCTGGGACGGTGTCGGATCATGTCTAA PRLDTCT*IPANAGTVSDHV* -1.778 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23705 HYRCHHSHRAPGLGTIIILIN 21 SLAY-screened peptide P2055 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTACCGTTGTCACCACAGCCACCGGGCTCCCGGTTTGGGAACAATTATAATTCTTATTAAC HYRCHHSHRAPGLGTIIILIN -1.778 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23706 EDLEMVQRGLRQDRERPLS 19 SLAY-screened peptide P2056 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGACCTCGAGATGGTGCAGCGGGGCCTGCGGCAGGATCGGGAGCGGCCCCTCAGCTAGTAA EDLEMVQRGLRQDRERPLS** -1.778 0.006193 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23707 HCLPLP 6 SLAY-screened peptide P2057 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTGCCTGCCCTTGCCCTAGCCGAACAGGCCTATTACCACCGTGACGCTTTGTCGGCCTTAA HCLPLP*PNRPITTVTLCRP* -1.778 0.000392 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23708 GKHSTVLLFRPHFHSDCIGA 20 SLAY-screened peptide P2058 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGAAGCACTCGACTGTTCTCCTGTTTCGCCCCCATTTTCATTCGGATTGTATCGGCGCTTAA GKHSTVLLFRPHFHSDCIGA* -1.778 0.001216 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23709 RNTVRPAIKALHVRKNQ 17 SLAY-screened peptide P2059 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGAACACCGTGCGCCCCGCCATTAAGGCTCTGCACGTTCGCAAGAACCAGTAGAACCTCTAA RNTVRPAIKALHVRKNQ*NL* -1.778 0.029668 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23710 SHNAPTQRNVAIATTRLRVA 20 SLAY-screened peptide P2060 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCACAACGCCCCTACTCAGCGCAACGTCGCCATCGCGACGACTAGGCTCCGTGTTGCGTAA SHNAPTQRNVAIATTRLRVA* -1.777 0.016337 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23711 DVNSYRPNDHPYFPMQILSF 20 SLAY-screened peptide P2061 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGTTAATTCTTATCGTCCGAATGATCACCCCTACTTTCCTATGCAGATTCTCTCGTTCTAA DVNSYRPNDHPYFPMQILSF* -1.777 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23712 YFSQYFFKPCGDPSEYAKIV 20 SLAY-screened peptide P2062 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTTTTCGCAGTATTTCTTTAAGCCCTGCGGCGACCCGTCGGAGTATGCCAAGATCGTCTAA YFSQYFFKPCGDPSEYAKIV* -1.777 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23713 RAVNDISRRQ 10 SLAY-screened peptide P2063 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCCGTGAACGACATCTCTCGGCGCCAGTAGGGTACTCTCAGTCAGGGAGCTACCTTTAAC RAVNDISRRQ*GTLSQGATFN -1.777 0.000888 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23714 RTPLSSTGATALANVAY 17 SLAY-screened peptide P2064 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTACCCCCCTTAGCTCTACCGGGGCGACGGCTCTTGCTAACGTTGCCTATTAGCCTATTTAA RTPLSSTGATALANVAY*PI* -1.777 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23715 HKTTYDPDLVVCLSHSTSPH 20 SLAY-screened peptide P2065 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAAGACGACGTACGATCCCGATCTCGTGGTTTGCCTGTCCCATTCGACTTCCCCCCACTAA HKTTYDPDLVVCLSHSTSPH* -1.777 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23716 LTTVTQSALPTTSVLPILQNY 21 SLAY-screened peptide P2066 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCACTACTGTCACTCAGTCTGCTCTGCCTACCACCTCGGTTTTGCCCATTCTGCAGAATTAT LTTVTQSALPTTSVLPILQNY -1.776 0.014123 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23717 PIRLIAYDLLGYVMGN 16 SLAY-screened peptide P2067 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATCAGGCTCATCGCCTATGACCTCCTTGGGTACGTCATGGGTAATTAGAACACCCCTTAA PIRLIAYDLLGYVMGN*NTP* -1.776 0.012248 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23718 PPSDHTWTAHHYHLSPGHPH 20 SLAY-screened peptide P2068 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTAGCGATCATACTTGGACCGCCCACCATTATCACTTGAGCCCTGGGCACCCTCATTAA PPSDHTWTAHHYHLSPGHPH* -1.775 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23719 PDTVETAPWAGSPNQCRTTS 20 SLAY-screened peptide P2069 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGATACGGTTGAGACCGCGCCTTGGGCTGGGAGCCCGAATCAGTGTCGTACTACGTCCTAA PDTVETAPWAGSPNQCRTTS* -1.775 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23720 FAFLTWPYYVLNLVVHNKDS 20 SLAY-screened peptide P2070 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGCGTTTCTGACTTGGCCTTACTACGTTCTGAACCTCGTTGTCCATAACAAGGATTCCTAA FAFLTWPYYVLNLVVHNKDS* -1.775 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23721 KSLQTCQRRHCRIHVWYTNS 20 SLAY-screened peptide P2071 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTCGTTGCAGACCTGTCAGAGGCGCCACTGCAGGATTCACGTGTGGTATACGAATAGTTAA KSLQTCQRRHCRIHVWYTNS* -1.775 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23722 LLT 3 SLAY-screened peptide P2072 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTTACTTAGGTCTGCCCGCTTAATTCCCTCCCTACTATCTCTATTTACTGCTGTTGTTAA LLT*VCPLNSLPTISIYCCC* -1.775 0.014628 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23723 LERVPCFICTTTSLTYYIRM 20 SLAY-screened peptide P2073 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGAGCGGGTGCCCTGTTTTATCTGCACTACTACCTCTCTCACTTATTATATCAGGATGTAA LERVPCFICTTTSLTYYIRM* -1.775 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23724 TTMNRNTFTDYTCRSVPLFI 20 SLAY-screened peptide P2074 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACTATGAACCGTAATACTTTCACCGATTATACTTGCAGGTCGGTTCCCTTGTTTATCTAA TTMNRNTFTDYTCRSVPLFI* -1.775 0.017721 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23725 NCNSFPFYGLLYHNVDASLT 20 SLAY-screened peptide P2075 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGTAATTCCTTTCCTTTCTACGGCCTGCTCTATCACAACGTTGATGCTAGCCTCACGTAA NCNSFPFYGLLYHNVDASLT* -1.774 0.000399 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23726 IVVAVVEISNHRDVQSSEKL 20 SLAY-screened peptide P2076 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGTTGTCGCTGTTGTGGAGATTAGCAATCACAGGGATGTCCAGAGTTCTGAGAAGTTGTAA IVVAVVEISNHRDVQSSEKL* -1.774 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23727 IMQHCRTQLCIIMYTTLTSPN 21 SLAY-screened peptide P2077 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCATGCAGCACTGCCGGACCCAGCTGTGCATTATTATGTATACTACACTTACGTCACCTAAC IMQHCRTQLCIIMYTTLTSPN -1.773 0.000394 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23728 VHVDRLPRTLSCTRSIT 17 SLAY-screened peptide P2078 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCATGTTGACCGTCTTCCTCGCACTCTAAGCTGCACGCGTAGTATTACTTGACCCCTTAAC VHVDRLPRTLSCTRSIT*PLN -1.773 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23729 PTPWCFLHRTSRPKRRTPAA 20 SLAY-screened peptide P2079 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACCCCTTGGTGCTTCCTTCATCGCACCTCCCGTCCTAAGAGGCGCACTCCCGCTGCCTAA PTPWCFLHRTSRPKRRTPAA* -1.773 0.003652 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23730 PCFDNRDNILLDYWFHSAII 20 SLAY-screened peptide P2080 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGCTTTGACAATCGGGATAATATTTTGCTTGATTATTGGTTCCATAGCGCTATTATTTAA PCFDNRDNILLDYWFHSAII* -1.773 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23731 GLSTLPPSVRSQRLSFTLNH 20 SLAY-screened peptide P2081 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCTTTCCACCCTCCCCCCTTCCGTTCGGAGCCAGCGTCTGTCTTTCACCCTGAACCATTAA GLSTLPPSVRSQRLSFTLNH* -1.773 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23732 RHMHSLTSHAGGRKPARAYY 20 SLAY-screened peptide P2082 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCACATGCATTCCCTTACGTCCCATGCTGGTGGCCGCAAGCCTGCTCGGGCTTATTATTAA RHMHSLTSHAGGRKPARAYY* -1.772 0.004599 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23733 TLPWQLPCLHWA 12 SLAY-screened peptide P2083 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTTCCTTGGCAGCTGCCGTGCCTGCACTGGGCGTAGGTTCAGTGCGACTTTTGGAGTTAA TLPWQLPCLHWA*VQCDFWS* -1.772 0.000781 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23734 PQALVVRLRA 10 SLAY-screened peptide P2084 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCAGGCCCTGGTGGTACGATTAAGGGCCTGACCAGTTTTATATCAAGAGTGATTATTAACT PQALVVRLRA*PVLYQE*LLT -1.772 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23735 VEPVMREVPLICTRVATA 18 SLAY-screened peptide P2085 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGAGCCGGTGATGCGTGAGGTTCCCCTCATCTGTACGAGAGTTGCAACAGCATGAACTAAC VEPVMREVPLICTRVATA*TN -1.772 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23736 VLVPGRGVRCRICPSSMGAR 20 SLAY-screened peptide P2086 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCTGGTCCCCGGGCGTGGTGTTAGGTGTCGGATTTGTCCTAGTAGCATGGGCGCTCGGTAA VLVPGRGVRCRICPSSMGAR* -1.771 0.000241 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23737 WLLTSSHINNTFTAYTTTRC 20 SLAY-screened peptide P2087 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCTCCTGACGTCCTCCCACATTAATAACACCTTTACCGCTTACACTACTACGAGGTGCTAA WLLTSSHINNTFTAYTTTRC* -1.771 0.001836 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23738 TNSILSHLSNCRNLFWYDIY 20 SLAY-screened peptide P2088 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGAACTCGATCCTCTCCCATTTGTCCAACTGTCGCAATCTGTTCTGGTATGACATCTACTAA TNSILSHLSNCRNLFWYDIY* -1.771 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23739 PPGRCGCMPDRVNNRMMPPS 20 SLAY-screened peptide P2089 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTGGCCGTTGCGGGTGCATGCCTGATCGTGTGAACAATCGCATGATGCCTCCGTCGTAA PPGRCGCMPDRVNNRMMPPS* -1.77 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23740 LKPMHPQAGRLLFTKGFTDA 20 SLAY-screened peptide P2090 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAAGCCCATGCACCCTCAGGCCGGCCGGCTTCTCTTCACTAAGGGCTTTACCGACGCCTAA LKPMHPQAGRLLFTKGFTDA* -1.77 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23741 CWHSQHRCFHYGCPPYDFLV 20 SLAY-screened peptide P2091 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTGGCACAGTCAGCACCGTTGTTTTCACTATGGTTGTCCTCCTTACGACTTTCTCGTGTAA CWHSQHRCFHYGCPPYDFLV* -1.769 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23742 PPPSRSVGPILALCRSSAN 19 SLAY-screened peptide P2092 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCCCCTCGAGATCGGTAGGGCCCATATTAGCTCTGTGCCGGAGTTCCGCTAACTGAGTA PPPSRSVGPILALCRSSAN*V -1.769 0.025598 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23743 RLSDNTHTLHRCTARIK 17 SLAY-screened peptide P2093 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTTGTCTGATAATACCCACACGCTTCACAGGTGTACCGCTAGGATCAAGTAGTGCCATTAA RLSDNTHTLHRCTARIK*CH* -1.769 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23744 DFDAVCSPLSSWACPV 16 SLAY-screened peptide P2094 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTTCGACGCCGTCTGTTCTCCTTTGAGCAGCTGGGCTTGCCCGGTCTAGATCACCTACTAA DFDAVCSPLSSWACPV*ITY* -1.768 0.021849 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23745 VSSCWTRGSAGRTSTIFSLF 20 SLAY-screened peptide P2095 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTCTAGTTGTTGGACTCGTGGCAGCGCTGGCCGTACGTCTACGATCTTCTCCCTCTTTTAA VSSCWTRGSAGRTSTIFSLF* -1.768 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23746 EDINPIGPSCYPVRSSRYIV 20 SLAY-screened peptide P2096 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGACATTAATCCCATCGGTCCGTCTTGCTATCCTGTGCGCAGTTCTCGGTACATCGTGTAA EDINPIGPSCYPVRSSRYIV* -1.768 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23747 HSPSCLSKSAGRTNNSPEPL 20 SLAY-screened peptide P2097 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTCCCCCTCGTGTCTCAGTAAGTCCGCTGGCCGCACGAATAATAGCCCCGAGCCGCTCTAA HSPSCLSKSAGRTNNSPEPL* -1.767 0.002451 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23748 YRSVLIYLL 9 SLAY-screened peptide P2098 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCGGTCCGTCTTGATCTATCTGTTGTAGTAGTTCATCTAGATCAACAGTCATGTTAGGTAA YRSVLIYLL**FI*INSHVR* -1.767 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23749 CIGGPPTRRCYCQFCHYLPLT 21 SLAY-screened peptide P2099 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTATCGGTGGTCCTCCGACCCGTCGGTGTTATTGTCAATTTTGCCATTATTTACCGCTAACT CIGGPPTRRCYCQFCHYLPLT -1.767 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23750 LFPPRPRAYMHFPYFA 16 SLAY-screened peptide P2100 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTCCCCCCGCGGCCTCGGGCGTATATGCATTTTCCTTATTTCGCTTAGGACGACCGTTAA LFPPRPRAYMHFPYFA*DDR* -1.767 0.0016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23751 PHTIRRLARPRAYHLCSVHS 20 SLAY-screened peptide P2101 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCACACGATTAGGCGTCTTGCTCGGCCTCGCGCGTACCACCTCTGTTCTGTTCACTCTTAA PHTIRRLARPRAYHLCSVHS* -1.766 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23752 DSSL 4 SLAY-screened peptide P2102 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTCCTCGCTGTAGATTTTGCTGCGCGACGACCATGATCCCAATGATCCCTACTGGAATTAA DSSL*ILLRDDHDPNDPYWN* -1.766 0.008096 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23753 WMPRSGLT 8 SLAY-screened peptide P2103 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGATGCCCAGGTCTGGCCTTACCTAGAACAGTGATAACCCTTAGACGTTCTATTCCCCTTAA WMPRSGLT*NSDNP*TFYSP* -1.765 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23754 MPTHPIPCITI 11 SLAY-screened peptide P2104 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCCTACTCATCCGATCCCTTGTATTACGATTTAGGACTCTTAGTCCCCCCGGTAGACTTAA MPTHPIPCITI*DS*SPR*T* -1.765 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23755 MHAGDCS 7 SLAY-screened peptide P2105 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCACGCCGGCGATTGCTCTTAGTAGTCTAATCGGAATTACTCTACGATTTTCGTCGACTAA MHAGDCS**SNRNYSTIFVD* -1.765 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23756 QIFLASNDTTPMIANNVLPC 20 SLAY-screened peptide P2106 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGATTTTCTTGGCGAGTAATGACACTACGCCGATGATTGCTAACAACGTTCTTCCCTGTTAA QIFLASNDTTPMIANNVLPC* -1.765 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23757 EKRARRVNA 9 SLAY-screened peptide P2107 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAAGCGCGCTAGGCGTGTCAACGCTTAGATCGGCCTTAGTATCACTTCCGACACTCCGTAA EKRARRVNA*IGLSITSDTP* -1.764 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23758 PDTCRDRRWPSHSLLIASRL 20 SLAY-screened peptide P2108 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGACACTTGCCGTGATCGTCGTTGGCCCTCTCACAGTCTGCTTATCGCTAGCCGGCTTTAA PDTCRDRRWPSHSLLIASRL* -1.764 0.01722 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23759 SLTEGPRRRQTSLSVSVQGH 20 SLAY-screened peptide P2109 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTTGACGGAGGGTCCTAGGCGCCGGCAGACTTCCCTCTCCGTGTCTGTCCAGGGTCACTAA SLTEGPRRRQTSLSVSVQGH* -1.764 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23760 HYSLSLIRTTANNGCPVVHS 20 SLAY-screened peptide P2110 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTACTCCTTGTCTTTGATCAGGACGACTGCTAACAACGGTTGCCCCGTTGTCCACAGCTAA HYSLSLIRTTANNGCPVVHS* -1.764 0.031754 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23761 WLCRNILWICKDHTARLHSM 20 SLAY-screened peptide P2111 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCTGTGTCGTAATATCCTGTGGATTTGCAAGGACCATACTGCCAGGCTTCATTCGATGTAA WLCRNILWICKDHTARLHSM* -1.763 0.017523 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23762 LFGPCFSRPQTCHHRTLRVT 20 SLAY-screened peptide P2112 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTTGGTCCTTGTTTCAGTCGCCCCCAGACCTGTCACCACCGTACGCTTCGCGTCACTTAA LFGPCFSRPQTCHHRTLRVT* -1.763 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23763 SHTLSTHYSSPRLSLVSVGS 20 SLAY-screened peptide P2113 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCATACGCTTAGCACTCACTATAGTTCTCCGCGGCTCAGCCTTGTTTCCGTTGGCAGCTAA SHTLSTHYSSPRLSLVSVGS* -1.763 0.019599 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23764 LTICLNTHMGPRVNRLNVSS 20 SLAY-screened peptide P2114 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACTATCTGTCTGAACACGCATATGGGCCCCAGGGTGAATCGTCTCAATGTGTCGAGCTAA LTICLNTHMGPRVNRLNVSS* -1.763 0.000441 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23765 WPVLDIFPEQGISSPDTPNP 20 SLAY-screened peptide P2115 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCTGTCCTGGATATTTTTCCCGAGCAGGGTATTTCCTCGCCTGACACCCCCAACCCGTAA WPVLDIFPEQGISSPDTPNP* -1.762 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23766 YHVMSPMRITLCPTQSPAPN 20 SLAY-screened peptide P2116 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCACGTCATGTCCCCTATGCGCATCACCCTGTGCCCTACCCAGAGCCCTGCCCCGAATTAA YHVMSPMRITLCPTQSPAPN* -1.762 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23767 SNTKHTSF 8 SLAY-screened peptide P2117 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAACACGAAGCATACCTCGTTCTAGCCCAGCAATCCCTGGTCTTGTATTAACACGTGGTAA SNTKHTSF*PSNPWSCINTW* -1.761 0.000282 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23768 QPRGPPAPGNHTIGPTHLPL 20 SLAY-screened peptide P2118 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCGCGGGGCCCGCCGGCCCCTGGTAACCATACGATCGGTCCCACCCACCTTCCCCTGTAA QPRGPPAPGNHTIGPTHLPL* -1.761 0.003555 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23769 APSHATNTTKCTLRPEGWHT 20 SLAY-screened peptide P2119 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCGTCTCACGCGACGAATACCACCAAGTGCACGCTGCGGCCCGAGGGTTGGCACACCTAA APSHATNTTKCTLRPEGWHT* -1.761 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23770 FSGGARPQSSHLLSNLHTCF 20 SLAY-screened peptide P2120 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTCCGGTGGTGCTCGCCCTCAGTCTAGCCATCTCCTGTCGAACCTCCACACTTGTTTCTAA FSGGARPQSSHLLSNLHTCF* -1.76 0.000025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23771 PPRMTNLNEYPVSVHPLRIHL 21 SLAY-screened peptide P2121 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCCGGATGACTAACCTCAACGAGTATCCGGTTAGCGTGCATCCCCTCCGCATCCATTTA PPRMTNLNEYPVSVHPLRIHL -1.76 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23772 LQSYTALPG 9 SLAY-screened peptide P2122 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCAGTCCTACACTGCCTTGCCGGGGTAGCTCTGCCCCAGTTACCTTAATCGCTGCATCTAA LQSYTALPG*LCPSYLNRCI* -1.76 0.037505 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23773 RPCLVIRAALRIRLEFKLRS 20 SLAY-screened peptide P2123 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCGTGTTTGGTTATCCGTGCCGCGCTGCGCATCCGCCTTGAGTTTAAGCTGCGTTCGTAA RPCLVIRAALRIRLEFKLRS* -1.76 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23774 TLLSWSSPGGAACNKQTNAN 20 SLAY-screened peptide P2124 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTTCTCAGCTGGAGTTCGCCGGGTGGTGCTGCCTGTAATAAGCAGACTAATGCCAATTAA TLLSWSSPGGAACNKQTNAN* -1.759 0.000123 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23775 LNQLNDSASWN 11 SLAY-screened peptide P2125 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAATCAGCTTAATGATAGTGCTTCGTGGAACTAGTGCCATGATGGCTGGGTGCTTTATTAA LNQLNDSASWN*CHDGWVLY* -1.759 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23776 IHSRPLSRFHVYTSYCHYGP 20 SLAY-screened peptide P2126 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCACAGCAGGCCGTTGTCGCGGTTTCACGTTTACACTAGTTATTGCCACTATGGTCCCTAA IHSRPLSRFHVYTSYCHYGP* -1.759 0.000291 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23777 YFWSALLPNAITSSPLSLSI 20 SLAY-screened peptide P2127 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTTTTGGTCTGCCCTTTTGCCTAACGCTATTACTAGTTCGCCCCTTTCCTTGTCCATCTAA YFWSALLPNAITSSPLSLSI* -1.758 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23778 SVSFRRTIVPARDYREVGTF 20 SLAY-screened peptide P2128 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGTGTCGTTCCGTCGCACCATCGTCCCGGCGCGCGACTACCGCGAGGTCGGCACGTTTTAA SVSFRRTIVPARDYREVGTF* -1.757 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23779 PTLPHIININLQAFCTLFKY 20 SLAY-screened peptide P2129 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACGCTCCCGCATATTATTAACATTAACCTCCAGGCCTTCTGCACTCTTTTTAAGTATTAA PTLPHIININLQAFCTLFKY* -1.757 0.000046 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23780 CLPVSHITYYPGSTLYVGSP 20 SLAY-screened peptide P2130 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTTGCCGGTTTCTCATATCACGTACTACCCCGGCTCCACCCTGTATGTTGGGAGTCCTTAA CLPVSHITYYPGSTLYVGSP* -1.756 0.042177 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23781 PVSFNN 6 SLAY-screened peptide P2131 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTTTCCTTCAACAATTAGCTTCTTGGGACGTTTAACTAGATTCACCCTCCTGTCCTGTAA PVSFNN*LLGTFN*IHPPVL* -1.756 0.002337 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23782 LEWFVALYSLTGSFRSRVDH 20 SLAY-screened peptide P2132 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGAGTGGTTCGTGGCCCTGTATTCTTTGACTGGCAGCTTCCGGTCTAGGGTCGACCATTAA LEWFVALYSLTGSFRSRVDH* -1.756 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23783 PCLPTIGIAANSTIIATHAS 20 SLAY-screened peptide P2133 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGCCTGCCTACCATCGGTATCGCTGCCAACTCTACCATTATTGCCACCCACGCTTCTTAA PCLPTIGIAANSTIIATHAS* -1.755 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23784 ITDPARASSYSTGRPYLFDN 20 SLAY-screened peptide P2134 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCACTGATCCGGCCAGGGCCTCTAGTTACTCGACTGGCCGGCCCTATCTGTTTGATAATTAA ITDPARASSYSTGRPYLFDN* -1.755 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23785 DSIMTSAARGVRWVLCLVCVN 21 SLAY-screened peptide P2135 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACAGCATTATGACATCTGCCGCACGAGGAGTACGATGGGTTTTATGCTTAGTCTGCGTTAAC DSIMTSAARGVRWVLCLVCVN -1.754 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23786 RCYAYEVILFEACCYLHNHV 20 SLAY-screened peptide P2136 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGCTACGCTTACGAGGTTATCCTTTTTGAGGCTTGTTGTTATCTTCACAACCATGTCTAA RCYAYEVILFEACCYLHNHV* -1.753 0.000351 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23787 ALLNCHRSQYAESSSHRQNI 20 SLAY-screened peptide P2137 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCTCCTGAATTGCCACCGTTCCCAGTACGCCGAGTCCTCGTCTCATCGTCAGAACATTTAA ALLNCHRSQYAESSSHRQNI* -1.753 0.000129 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23788 PSP 3 SLAY-screened peptide P2138 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGCCCTTAGTTGGCGCTCTCCCGCCGCGACCGCAAGTAGTACAGCAATATCAGTACTTAA PSP*LALSRRDRK*YSNIST* -1.753 0.01849 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23789 RTAYPFSDRLKVANFRRAHT 20 SLAY-screened peptide P2139 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACCGCGTACCCCTTCAGCGACCGTCTTAAGGTCGCTAACTTCCGCCGGGCTCACACTTAA RTAYPFSDRLKVANFRRAHT* -1.753 0.026433 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23790 SRFLRAPTDNLTCIPL 16 SLAY-screened peptide P2140 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGCTTTCTTAGGGCGCCCACTGATAATCTTACTTGCATCCCTTTGTAGATGGGCACTTAA SRFLRAPTDNLTCIPL*MGT* -1.752 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23791 SPTLVLLILCLRTRCCRHGT 20 SLAY-screened peptide P2141 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCCACCCTCGTTCTTCTCATTCTCTGCCTTAGGACCCGCTGCTGTCGTCACGGGACTTAA SPTLVLLILCLRTRCCRHGT* -1.752 0.000204 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23792 PTTDSLPAGCNFTPLTSQLI 20 SLAY-screened peptide P2142 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACTACCGACAGCCTGCCCGCCGGCTGCAACTTCACCCCGCTGACGAGTCAGCTTATTTAA PTTDSLPAGCNFTPLTSQLI* -1.752 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23793 PPFRPRDSPVHMLGCFSCRY 20 SLAY-screened peptide P2143 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCTTCCGCCCTCGTGACTCTCCGGTCCACATGCTCGGGTGCTTTTCTTGCCGCTACTAA PPFRPRDSPVHMLGCFSCRY* -1.752 0.004147 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23794 CRLGRPYYFRFLIAFIGEPV 20 SLAY-screened peptide P2144 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAGGTTGGGCAGGCCGTATTATTTCCGTTTTCTTATCGCCTTCATTGGCGAGCCTGTCTAA CRLGRPYYFRFLIAFIGEPV* -1.751 0.000539 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23795 HAVTVFPGYSHNRNYSKSHY 20 SLAY-screened peptide P2145 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCCGTCACCGTTTTTCCCGGCTATAGCCATAACCGTAACTATAGCAAGAGCCATTACTAA HAVTVFPGYSHNRNYSKSHY* -1.75 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23796 KLSG 4 SLAY-screened peptide P2146 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTTGTCCGGTTAGCCGCCGCTTACGAAGCATACGGAGTATAAGATTACGAAGATCAAGTAA KLSG*PPLTKHTEYKITKIK* -1.75 0.003504 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23797 FPRASPIHQLKNRTLCTIFY 20 SLAY-screened peptide P2147 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCCCCGGGCGTCTCCCATCCATCAGCTTAAGAATCGTACGCTTTGCACTATTTTCTATTAA FPRASPIHQLKNRTLCTIFY* -1.749 0.007814 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23798 RILNSLSSRIYVLVALVKFR 20 SLAY-screened peptide P2148 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTATTTTGAACAGCCTTTCTTCCCGGATTTATGTGTTGGTTGCCCTTGTCAAGTTCCGTTAA RILNSLSSRIYVLVALVKFR* -1.749 0.000981 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23799 KVYNSTLNYTSPSLTPHPYC 20 SLAY-screened peptide P2149 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGGTGTATAACAGCACGCTGAATTACACGTCCCCCTCCTTGACTCCTCATCCTTATTGTTAA KVYNSTLNYTSPSLTPHPYC* -1.748 0.000425 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23800 YHYRCHRNSPPMPYSFTPRT 20 SLAY-screened peptide P2150 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCATTACCGCTGCCACCGGAATAGTCCCCCTATGCCTTATTCCTTTACTCCTCGCACTTAA YHYRCHRNSPPMPYSFTPRT* -1.748 0.000045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23801 SAGLYVARIHYQGFSMSHCS 20 SLAY-screened peptide P2151 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCCGGCCTCTACGTCGCCCGGATCCATTACCAGGGCTTTAGTATGTCGCACTGCTCTTAA SAGLYVARIHYQGFSMSHCS* -1.748 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23802 LEKTHINSDSYFGPTDNICK 20 SLAY-screened peptide P2152 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGAGAAGACCCATATCAATAGCGACTCCTACTTCGGTCCCACGGACAATATTTGCAAGTAA LEKTHINSDSYFGPTDNICK* -1.748 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23803 LPYVATKGAFSDT 13 SLAY-screened peptide P2153 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCCTATGTGGCTACCAAGGGGGCTTTTTCCGATACTTAGGCTACGAGGAGTCACAGCTAA LPYVATKGAFSDT*ATRSHS* -1.748 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23804 MHPYISHFVIKLEASYVCSS 20 SLAY-screened peptide P2154 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCACCCGTACATCTCGCACTTCGTCATTAAGCTGGAGGCTTCCTATGTCTGTTCGTCGTAA MHPYISHFVIKLEASYVCSS* -1.747 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23805 TALSFVLQCLPCL 13 SLAY-screened peptide P2155 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCTCTCTCCTTCGTCCTCCAGTGCCTGCCCTGCCTTTAGGTGCCGTTCTGCTTCTTGTAA TALSFVLQCLPCL*VPFCFL* -1.747 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23806 HRVNGHAHVLNPLVCGSSRS 20 SLAY-screened peptide P2156 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAGGGTTAACGGTCACGCCCACGTGCTTAATCCGCTTGTCTGCGGGTCGAGCAGGAGCTAA HRVNGHAHVLNPLVCGSSRS* -1.746 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23807 RGSQDLLILFHFSSPTSTDT 20 SLAY-screened peptide P2157 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGGTTCCCAGGACCTTCTCATCCTGTTTCATTTCTCTAGTCCCACGTCGACTGACACCTAA RGSQDLLILFHFSSPTSTDT* -1.746 0.022835 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23808 PQRSRITVSSSRVYGALNVI 20 SLAY-screened peptide P2158 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCAGCGCTCTAGGATTACTGTTAGCTCTTCGCGTGTCTATGGGGCCCTTAATGTGATCTAA PQRSRITVSSSRVYGALNVI* -1.745 0.000694 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23809 ESRARSTHTVPR 12 SLAY-screened peptide P2159 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGTCGCGCGCTCGGAGTACCCATACGGTGCCCCGCTAGAGTTTGCTGCCTGATGTCGAGTAA ESRARSTHTVPR*SLLPDVE* -1.745 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23810 SDAHENTVVAVRFSWFNDPA 20 SLAY-screened peptide P2160 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGATGCCCACGAGAACACCGTCGTGGCCGTGCGTTTTTCGTGGTTTAATGACCCTGCGTAA SDAHENTVVAVRFSWFNDPA* -1.744 0.00553 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23811 GCPVYAPYPIYIGTSPMMRT 20 SLAY-screened peptide P2161 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTGCCCTGTTTACGCGCCGTACCCCATCTACATTGGTACTTCCCCCATGATGCGGACCTAA GCPVYAPYPIYIGTSPMMRT* -1.744 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23812 KLLFFLTHDGCNCVYTPLCVY 21 SLAY-screened peptide P2162 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCTTTTGTTTTTCCTGACGCATGATGGGTGTAATTGTGTTTATACTCCTTTGTGTGTGTAC KLLFFLTHDGCNCVYTPLCVY -1.744 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23813 LHAGPQFFNNLFDTACLPNN 20 SLAY-screened peptide P2163 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCACGCCGGCCCGCAGTTTTTCAATAATCTTTTTGACACCGCTTGTCTGCCTAATAATTAA LHAGPQFFNNLFDTACLPNN* -1.744 0.000036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23814 SLMDVCYYLL 10 SLAY-screened peptide P2164 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCTTATGGACGTGTGTTACTATCTGCTGTAGCCCCGCCCTTAGAGTGACCTCGTCGCCTAA SLMDVCYYLL*PRP*SDLVA* -1.743 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23815 ADLRGYLKEHKRYISIYYCP 20 SLAY-screened peptide P2165 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGACCTCCGCGGCTACCTCAAGGAGCACAAGCGCTATATTAGCATCTACTACTGTCCTTAA ADLRGYLKEHKRYISIYYCP* -1.743 0.000089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23816 WTYYVLALRPGSLTIGYTRT 20 SLAY-screened peptide P2166 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGACCTACTACGTCCTGGCCCTTCGGCCCGGTTCGCTTACTATTGGCTATACGCGGACGTAA WTYYVLALRPGSLTIGYTRT* -1.743 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23817 PIVTGSTHLTKKALSYGTSA 20 SLAY-screened peptide P2167 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATCGTCACGGGGTCCACGCATCTGACTAAGAAGGCCTTGAGTTACGGCACTTCTGCCTAA PIVTGSTHLTKKALSYGTSA* -1.742 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23818 TCTTDAQDNSSSVCATRQNA 20 SLAY-screened peptide P2168 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTGCACCACCGACGCTCAGGATAATTCTAGTAGTGTTTGCGCGACCCGCCAGAATGCGTAA TCTTDAQDNSSSVCATRQNA* -1.742 0.004084 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23819 QYEYLPNAHTTYTSISQSWI 20 SLAY-screened peptide P2169 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTATGAGTACTTGCCTAATGCCCATACCACTTATACTTCCATTAGTCAGTCCTGGATCTAA QYEYLPNAHTTYTSISQSWI* -1.742 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23820 VVRCFHSIWRPSSCGSYIIL 20 SLAY-screened peptide P2170 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGTTAGGTGTTTTCACAGCATCTGGCGGCCTAGTAGTTGCGGGTCGTATATCATCCTCTAA VVRCFHSIWRPSSCGSYIIL* -1.742 0.025366 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23821 CSTEVYNRSFEIHFLATLTP 20 SLAY-screened peptide P2171 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTCGACCGAGGTGTATAACCGTAGCTTCGAGATCCACTTTCTTGCTACTCTTACGCCTTAA CSTEVYNRSFEIHFLATLTP* -1.742 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23822 SPATLSHNFIRPLSACLTSY 20 SLAY-screened peptide P2172 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCCGGCCACGCTGAGTCACAATTTTATTCGTCCTCTCTCTGCCTGTCTGACCTCTTACTAG SPATLSHNFIRPLSACLTSY* -1.742 0.011457 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23823 NCSRPCCITVSMIGDARSTF 20 SLAY-screened peptide P2173 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTGTTCCCGCCCGTGCTGTATCACTGTTTCTATGATTGGCGACGCGCGGAGTACCTTCTAA NCSRPCCITVSMIGDARSTF* -1.742 0.00003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23824 PSATRPPL 8 SLAY-screened peptide P2174 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCTGCTACTCGCCCTCCCCTTTAGCTCACTCCGCCTACGTGTACTAAGGCTTGCCGTTAA PSATRPPL*LTPPTCTKACR* -1.742 0.000033 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23825 RAIPRHRSVTTPGKRPCNCN 20 SLAY-screened peptide P2175 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCCATCCCTCGTCACCGCTCTGTCACCACCCCCGGCAAGCGTCCTTGTAATTGTAACTAA RAIPRHRSVTTPGKRPCNCN* -1.741 0.004644 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23826 PNIPKDT 7 SLAY-screened peptide P2176 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAACATTCCTAAGGACACTTAGTCTGTCACTCTTAAGATTGTCGATTACATGCCTGATTAA PNIPKDT*SVTLKIVDYMPD* -1.741 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23827 LHRNMLGTFAHPHKMQASID 20 SLAY-screened peptide P2177 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCACCGTAACATGCTCGGGACGTTTGCTCATCCCCACAAGATGCAGGCGAGCATTGACTAA LHRNMLGTFAHPHKMQASID* -1.741 0.000508 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23828 TAVCFRARFPQVSYALNTLG 20 SLAY-screened peptide P2178 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCCGTCTGCTTCCGTGCCAGGTTTCCCCAGGTGAGTTACGCCCTGAATACTCTTGGCTAA TAVCFRARFPQVSYALNTLG* -1.741 0.009043 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23829 TELPQHNLTSTAFALRCFHT 20 SLAY-screened peptide P2179 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGAGCTGCCTCAGCACAACTTGACTTCCACGGCCTTTGCCCTGCGGTGTTTCCATACCTAA TELPQHNLTSTAFALRCFHT* -1.741 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23830 PGADLCNKLAYSTQYPYIPN 20 SLAY-screened peptide P2180 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGGTGCGGATCTCTGCAACAAGTTGGCCTATTCCACTCAGTACCCCTATATTCCCAACTAA PGADLCNKLAYSTQYPYIPN* -1.74 0.02154 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23831 HYNFR 5 SLAY-screened peptide P2181 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTATAATTTTCGTTAGTCGCGCATTACGTGTTCGACGGTGGTTCTGAGTACTCTCATTTAA HYNFR*SRITCSTVVLSTLI* -1.74 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23832 ICSPDMKARYNNPAPQTLTF 20 SLAY-screened peptide P2182 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTGTAGCCCGGATATGAAGGCCCGCTACAATAATCCCGCTCCTCAGACCTTGACCTTTTAA ICSPDMKARYNNPAPQTLTF* -1.74 0.000024 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23833 HICYRETGTLPTITIPYSFI 20 SLAY-screened peptide P2183 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATCTGTTACCGGGAGACGGGCACGTTGCCGACTATCACCATCCCTTATAGCTTTATTTAA HICYRETGTLPTITIPYSFI* -1.739 0.005552 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23834 VLPFRLDPRD 10 SLAY-screened peptide P2184 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCTGCCCTTTCGCCTGGACCCTAGGGACTAGATGGTCACGAGTGCTGTTAACGTTGCTTAA VLPFRLDPRD*MVTSAVNVA* -1.739 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23835 GRLQRVPIVCHAETFVDLAP 20 SLAY-screened peptide P2185 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCGTTTGCAGCGTGTGCCTATTGTCTGCCACGCGGAGACCTTTGTTGACCTGGCGCCCTAA GRLQRVPIVCHAETFVDLAP* -1.739 0.001977 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23836 PDRTPCTNPYNDFRTLHYIL 20 SLAY-screened peptide P2186 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGACCGTACCCCTTGTACCAACCCTTACAACGACTTCAGGACCCTGCACTACATCCTTTAA PDRTPCTNPYNDFRTLHYIL* -1.738 0.001513 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23837 VHNVNGQLYQAH 12 SLAY-screened peptide P2187 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCACAACGTCAATGGGCAGCTGTATCAGGCTCACTAGTTTACCGCCAGCGCCATCCCGTAA VHNVNGQLYQAH*FTASAIP* -1.738 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23838 EPTDDGHLQYFSSPSPLVVLT 21 SLAY-screened peptide P2188 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCCGACGGACGACGGGCACTTACAGTACTTTTCTTCTCCATCCCCCTTAGTTGTCCTAACT EPTDDGHLQYFSSPSPLVVLT -1.738 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23839 SFCNTSLLAPALFPP 15 SLAY-screened peptide P2189 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTTTTGTAATACGTCCTTGCTCGCCCCCGCGCTCTTCCCTCCTTAGGCCATCACGAGTTAA SFCNTSLLAPALFPP*AITS* -1.738 0.000257 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23840 RFVVATIKLTVESRILNVYWL 21 SLAY-screened peptide P2190 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTTGTTGTGGCGACGATTAAGCTTACGGTGGAGTCCCGGATCCTTAATGTCTACTGGCTA RFVVATIKLTVESRILNVYWL -1.737 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23841 MFGQNILPSNLCTDPPDLDA 20 SLAY-screened peptide P2191 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTTTGGGCAGAACATCCTCCCTTCTAACTTGTGCACCGACCCTCCTGACTTGGATGCCTAA MFGQNILPSNLCTDPPDLDA* -1.737 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23842 SDRAATRVPLCHDHLLSYEE 20 SLAY-screened peptide P2192 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGACCGTGCGGCTACGAGGGTGCCTCTCTGCCATGATCATTTGCTTTCGTACGAGGAGTAA SDRAATRVPLCHDHLLSYEE* -1.737 0.003694 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23843 TRHYNPPTRTFMCHPAGAAP 20 SLAY-screened peptide P2193 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCGGCATTATAACCCGCCTACCCGTACCTTCATGTGTCATCCCGCCGGCGCCGCCCCTTAA TRHYNPPTRTFMCHPAGAAP* -1.737 0.010628 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23844 QSRFSGIHDVLHVALDWLFL 20 SLAY-screened peptide P2194 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTCGAGGTTTTCGGGTATTCATGATGTGCTTCATGTCGCTCTTGACTGGCTGTTCTTGTAA QSRFSGIHDVLHVALDWLFL* -1.736 0.000234 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23845 RMSPLYHALDLTGWYSI 17 SLAY-screened peptide P2195 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTATGTCTCCTCTTTATCACGCGCTTGACCTTACGGGCTGGTATTCTATTTAGTCTAACTAA RMSPLYHALDLTGWYSI*SN* -1.736 0.043012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23846 QLLFSRLLLTRILLSLLRRN 20 SLAY-screened peptide P2196 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCTGCTGTTCTCTCGACTCTTACTTACCCGCATCCTACTAAGCCTTCTTCGCCGTAACTGA QLLFSRLLLTRILLSLLRRN* -1.734 0.003339 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23847 PRRRHIDAFIDST 13 SLAY-screened peptide P2197 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTCGTCGGCATATTGACGCGTTCATCGACAGTACCTAGAATATGAACTACTGTTACTAA PRRRHIDAFIDST*NMNYCY* -1.734 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23848 TYYPATNIRANNPLQSQNMS 20 SLAY-screened peptide P2198 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTACTACCCGGCCACTAACATTCGGGCGAATAACCCGCTCCAGTCTCAGAACATGTCGTAA TYYPATNIRANNPLQSQNMS* -1.734 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23849 GYGQLFCRRDIMCNLKTASA 20 SLAY-screened peptide P2199 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTATGGGCAGCTCTTTTGTCGCCGCGATATTATGTGCAACTTGAAGACTGCTAGTGCGTAA GYGQLFCRRDIMCNLKTASA* -1.733 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23850 LQSNRHGHPTHANSFTHPPI 20 SLAY-screened peptide P2200 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCAGTCCAACAGGCACGGCCATCCCACCCATGCCAATTCTTTTACGCATCCGCCCATCTAA LQSNRHGHPTHANSFTHPPI* -1.733 0.000059 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23851 SRHNVSNFVALNCAPHTDTF 20 SLAY-screened peptide P2201 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGTCATAACGTCTCCAATTTCGTTGCCCTTAACTGTGCCCCGCACACCGACACGTTTTAA SRHNVSNFVALNCAPHTDTF* -1.733 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23852 NHKTTAGEPCKRCSKFSNCP 20 SLAY-screened peptide P2202 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCACAAGACTACGGCGGGGGAGCCTTGTAAGAGGTGCAGCAAGTTCTCGAATTGTCCCTAA NHKTTAGEPCKRCSKFSNCP* -1.732 0.00191 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23853 FITMPHPDNPGSKEDTHNNA 20 SLAY-screened peptide P2203 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTATTACTATGCCGCATCCTGACAACCCGGGTTCTAAGGAGGATACGCATAACAATGCCTAA FITMPHPDNPGSKEDTHNNA* -1.732 0.005869 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23854 LYDAIRSEHISPLLFTILFFN 21 SLAY-screened peptide P2204 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTACGACGCCATCCGGTCCGAGCATATAAGCCCTCTGCTCTTCACTATCCTTTTCTTTAAC LYDAIRSEHISPLLFTILFFN -1.732 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23855 NV 2 SLAY-screened peptide P2205 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGTGTAGTACTATGCCGCTGTTCGGATGCCTCTTTCCAACTGCCTTAGCGGTGAGCGCTAA NV*YYAAVRMPLSNCLSGER* -1.731 0.020523 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23856 RSEDCDRSTSCNFTCTSYDL 20 SLAY-screened peptide P2206 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTCCGAGGACTGCGACCGTAGTACTTCCTGTAATTTTACCTGCACCTCTTACGACCTTTAA RSEDCDRSTSCNFTCTSYDL* -1.731 0.00015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23857 CPVRAHYAGFNLDNNMPYDR 20 SLAY-screened peptide P2207 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCCGTGCGCGCCCACTATGCTGGGTTTAATCTCGATAACAACATGCCCTATGATCGCTAA CPVRAHYAGFNLDNNMPYDR* -1.73 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23858 PRHRNLAI 8 SLAY-screened peptide P2208 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGCCACCGTAATCTGGCGATTTAGGATACTCCCTCTAGTAACCAGCAGGGCCATGGGTAA PRHRNLAI*DTPSSNQQGHG* -1.73 0.000166 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23859 VQSRVLRRIITCLFSRFVPV 20 SLAY-screened peptide P2209 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCAGAGCCGCGTGCTCAGGAGGATCATTACGTGTTTGTTCTCGAGGTTTGTTCCTGTTTAA VQSRVLRRIITCLFSRFVPV* -1.73 0.000224 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23860 WDYNSLSKLTITPWNYMQST 20 SLAY-screened peptide P2210 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGGATTACAATTCCCTGTCCAAGCTCACTATCACCCCCTGGAACTACATGCAGTCGACGTAA WDYNSLSKLTITPWNYMQST* -1.73 0.019816 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23861 DSRYSQSIQDFRPTRNSHNW 20 SLAY-screened peptide P2211 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTCGCGGTATTCCCAGTCTATTCAGGATTTTCGGCCGACGAGGAATTCCCACAATTGGTAA DSRYSQSIQDFRPTRNSHNW* -1.73 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23862 LSSLTLECLPLMTQFDHALSN 21 SLAY-screened peptide P2212 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGAGTTCGCTGACTCTTGAGTGTCTTCCCTTGATGACCCAGTTCGACCACGCACTAAGTAAC LSSLTLECLPLMTQFDHALSN -1.73 0.009395 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23863 RRLSHHLAFPNMRRITLAILN 21 SLAY-screened peptide P2213 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCGCCTCTCGCATCATCTTGCTTTTCCGAACATGAGGAGAATAACGCTAGCCATACTTAAC RRLSHHLAFPNMRRITLAILN -1.729 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23864 HPSESSNCHNLPFWPGSFIE 20 SLAY-screened peptide P2214 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCCTCTGAGAGCTCTAACTGTCATAACCTTCCTTTCTGGCCTGGCTCCTTCATTGAGTAA HPSESSNCHNLPFWPGSFIE* -1.729 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23865 HLTTALNGPYRVTMALDNIP 20 SLAY-screened peptide P2215 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTTACCACGGCTCTTAATGGTCCGTACCGGGTTACGATGGCTCTTGACAACATCCCCTAA HLTTALNGPYRVTMALDNIP* -1.729 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23866 LHRNRSSRTPRTTYAGDHPP 20 SLAY-screened peptide P2216 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCACCGGAATAGGTCCTCCCGTACGCCGAGGACCACCTATGCCGGCGACCACCCTCCTTAA LHRNRSSRTPRTTYAGDHPP* -1.729 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23867 GYRIRIPGTVNNHDECYLLA 20 SLAY-screened peptide P2217 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTATCGCATTCGGATTCCCGGTACTGTCAATAATCACGATGAGTGCTATCTTTTGGCGTAA GYRIRIPGTVNNHDECYLLA* -1.729 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23868 IDVGQYQSIPKCVARMLI 18 SLAY-screened peptide P2218 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGACGTTGGCCAGTATCAGAGCATCCCTAAGTGTGTTGCCCGTATGCTCATTTAGTATTAA IDVGQYQSIPKCVARMLI*Y* -1.728 0.000058 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23869 RPAYILEQPRGWVPTEQYLL 20 SLAY-screened peptide P2219 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCGGCTTACATCCTCGAGCAGCCTCGGGGGTGGGTTCCTACCGAGCAGTACCTTCTCTAA RPAYILEQPRGWVPTEQYLL* -1.728 0.039109 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23870 GLSVNHILALRLHRAFYLDP 20 SLAY-screened peptide P2220 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCTTTCCGTGAATCATATCCTTGCCCTTCGCCTTCACCGGGCCTTTTACCTTGACCCTTAA GLSVNHILALRLHRAFYLDP* -1.728 0.004898 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23871 TWHYHCQAPSIWSLTPSYSN 20 SLAY-screened peptide P2221 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGGCATTACCACTGTCAGGCGCCCTCTATCTGGTCCCTCACTCCGAGTTACAGCAATTAA TWHYHCQAPSIWSLTPSYSN* -1.728 0.000065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23872 PDLTHSPWLNIPWSLVDACA 20 SLAY-screened peptide P2222 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGACCTTACTCACTCCCCGTGGCTCAACATCCCGTGGTCTCTTGTGGATGCCTGTGCCTAA PDLTHSPWLNIPWSLVDACA* -1.728 0.007056 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23873 LCSTYGPTRHGSPSQIPFHT 20 SLAY-screened peptide P2223 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTGCTCTACGTACGGCCCCACGCGCCACGGCAGCCCCTCCCAGATCCCTTTTCATACGTAA LCSTYGPTRHGSPSQIPFHT* -1.727 0.020993 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23874 RIPAKDHKQYRSTLCTVRRSN 21 SLAY-screened peptide P2224 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATCCCTGCTAAGGACCACAAGCAGTACCGAAGCACGTTATGTACTGTTAGGCGTAGTAAC RIPAKDHKQYRSTLCTVRRSN -1.726 0.000249 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23875 DVRSLVLLN 9 SLAY-screened peptide P2225 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGTCCGCAGTTTGGTGCTTCTCAATTAGAACCCCTCGCGCGCGCGTGCTTTTGTGAAGTAA DVRSLVLLN*NPSRARAFVK* -1.726 0.006629 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23876 PNPPNVWRLAHLDDPSTLTL 20 SLAY-screened peptide P2226 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAATCCGCCGAACGTTTGGCGCCTTGCCCATCTGGATGACCCTAGTACTCTTACGTTGTAA PNPPNVWRLAHLDDPSTLTL* -1.726 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23877 CLPNGVPTPNCYIVHFTALS 20 SLAY-screened peptide P2227 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCCCCAATGGTGTTCCTACGCCTAACTGCTATATTGTTCATTTCACCGCCCTTTCCTAA CLPNGVPTPNCYIVHFTALS* -1.725 0.000446 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23878 SSPCALYSQISITFLNWVRT 20 SLAY-screened peptide P2228 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTAGCCCCTGTGCGCTCTATTCGCAGATTTCTATCACCTTCCTTAATTGGGTTCGTACTTAA SSPCALYSQISITFLNWVRT* -1.725 0.000119 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23879 TCHAHCLPRNLPTIPICLYR 20 SLAY-screened peptide P2229 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTGTCATGCCCATTGCTTGCCTCGTAATTTGCCGACGATTCCGATTTGCCTCTACCGTTAA TCHAHCLPRNLPTIPICLYR* -1.725 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23880 IPPTRRSNTSHDS 13 SLAY-screened peptide P2230 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCCCCCTACCAGGCGGAGTAATACCTCCCATGACTCTTAGGATATCACTGACTAGCGGTAA IPPTRRSNTSHDS*DITD*R* -1.724 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23881 QNNDV 5 SLAY-screened peptide P2231 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAACAATGATGTTTAGAACTGGCGTGTCTACCGTTCCTGTCGCTACACTTATACGGATTAA QNNDV*NWRVYRSCRYTYTD* -1.724 0.014278 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23882 PTAVVTSPVPNPFNVYSYTI 20 SLAY-screened peptide P2232 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACCGCCGTGGTCACCAGCCCCGTTCCTAACCCCTTTAACGTTTATTCTTATACTATTTAA PTAVVTSPVPNPFNVYSYTI* -1.724 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23883 PPQPQFGIVRSGVGVHQIGI 20 SLAY-screened peptide P2233 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCTCAGCCTCAGTTTGGCATTGTGCGCTCGGGGGTGGGCGTGCACCAGATCGGTATTTAA PPQPQFGIVRSGVGVHQIGI* -1.724 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23884 PRFSKCIRWNIQHLPIT 17 SLAY-screened peptide P2234 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCTTCTCCAAGTGTATCCGTTGGAATATCCAGCATCTCCCCATTACCTAGATCCGCTAA PRFSKCIRWNIQHLPIT*IR* -1.724 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23885 LNSITVLLRLILNVVLLCFS 20 SLAY-screened peptide P2235 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGAATAGCATCACTGTGCTGCTCCGCTTGATCCTTAACGTCGTTTTGCTTTGCTTTTCCTAA LNSITVLLRLILNVVLLCFS* -1.723 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23886 YRPTNANVTTHATLALAVPC 20 SLAY-screened peptide P2236 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCGCCCTACGAATGCGAACGTTACCACCCACGCGACTCTGGCTCTCGCGGTCCCGTGCTAA YRPTNANVTTHATLALAVPC* -1.723 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23887 TLHLCALHF 9 SLAY-screened peptide P2237 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTCCACCTGTGCGCTCTGCATTTTTAGCTGAACCCTCGTCATTCCTTTTAGGTTCCTTAA TLHLCALHF*LNPRHSF*VP* -1.723 0.001475 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23888 HPGAFPPR 8 SLAY-screened peptide P2238 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCCGGCGCTTTTCCCCCGCGCTAGCACCACATCGTTATTAGTCACGGGCGTAAGTCGTAC HPGAFPPR*HHIVISHGRKSY -1.723 0.001259 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23889 PQRPTYNNTCTTRSHYLPGY 20 SLAY-screened peptide P2239 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCAGCGCCCTACCTACAATAATACTTGTACTACGCGCTCGCATTATCTCCCCGGTTACTAA PQRPTYNNTCTTRSHYLPGY* -1.723 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23890 RPRRQSVHEQCHATPIATSCN 21 SLAY-screened peptide P2240 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCTCGCCGTCAGAGCGTCCACGAGCAGTGCCATGCTACTCCTATCGCCACGAGCTGTAAC RPRRQSVHEQCHATPIATSCN -1.722 0.033116 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23891 KPVYIRSSPYCHMGDRRATA 20 SLAY-screened peptide P2241 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCCTGTCTATATTCGGAGTAGCCCCTACTGTCATATGGGTGATCGGCGTGCGACGGCCTAA KPVYIRSSPYCHMGDRRATA* -1.721 0.001061 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23892 MSGTHGWLMEPLFHVLLACA 20 SLAY-screened peptide P2242 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTCTGGTACTCACGGTTGGCTCATGGAGCCGTTGTTTCACGTCCTGCTTGCTTGTGCTTAA MSGTHGWLMEPLFHVLLACA* -1.721 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23893 KSYSE 5 SLAY-screened peptide P2243 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGAGCTATTCGGAGTAGAGCATCGCCAGGCACCTGAGTGGCACCTATCACATTGACTTGTAA KSYSE*SIARHLSGTYHIDL* -1.72 0.000502 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23894 LVKMNRSLILTVINRTNRRW 20 SLAY-screened peptide P2244 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTCAAGATGAACCGCAGCCTGATCTTGACTGTCATCAACCGGACCAACAGGCGCTGGTAA LVKMNRSLILTVINRTNRRW* -1.72 0.015724 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23895 SARNHQPYTPICLGAASLSI 20 SLAY-screened peptide P2245 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCGCGTAATCACCAGCCTTATACTCCTATCTGCTTGGGTGCTGCTTCTCTTTCTATTTAA SARNHQPYTPICLGAASLSI* -1.719 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23896 PCSMPPYWWGIAVVPTIEIV 20 SLAY-screened peptide P2246 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGCTCGATGCCCCCTTACTGGTGGGGTATCGCTGTTGTCCCCACTATCGAGATTGTGTAA PCSMPPYWWGIAVVPTIEIV* -1.719 0.000044 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23897 PLYEAGTIHFPLQP 14 SLAY-screened peptide P2247 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTGTATGAGGCCGGCACCATCCATTTCCCTTTGCAGCCTTAGCATACGAATAACGTGTAA PLYEAGTIHFPLQP*HTNNV* -1.719 0.002428 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23898 RYVPTMHITSCTDWAGCHYL 20 SLAY-screened peptide P2248 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTATGTCCCTACCATGCACATTACGAGTTGTACTGACTGGGCGGGTTGCCACTATCTCTAA RYVPTMHITSCTDWAGCHYL* -1.719 0.001062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23899 KPH 3 SLAY-screened peptide P2249 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCCTCATTAGCATCCTATCAACTTCTACCTGTAGCATTACGATTAGATGGATGTTTTGTAA KPH*HPINFYL*HYD*MDVL* -1.718 0.004391 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23900 RSGRTQCYNRNYHPFIIEVL 20 SLAY-screened peptide P2250 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTCTGGTCGGACCCAGTGCTACAACCGGAATTATCACCCTTTTATTATTGAGGTCTTGTAA RSGRTQCYNRNYHPFIIEVL* -1.718 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23901 SYHISLASISTSSYGQYPHVT 21 SLAY-screened peptide P2251 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTACCATATATCCCTTGCTTCTATTAGTACATCGTCATACGGGCAGTACCCCCATGTAACT SYHISLASISTSSYGQYPHVT -1.718 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23902 PLRMLTDKKPSFVIMEKFHT 20 SLAY-screened peptide P2252 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCCGGATGTTGACTGACAAGAAGCCTAGTTTTGTCATCATGGAGAAGTTCCATACTTAA PLRMLTDKKPSFVIMEKFHT* -1.718 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23903 RLSRPENPPVRDYILLSWGC 20 SLAY-screened peptide P2253 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTTAGTCGTCCGGAGAATCCTCCCGTCCGTGATTATATCCTTTTGTCTTGGGGCTGCTAA RLSRPENPPVRDYILLSWGC* -1.717 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23904 TCSSFHLRWRALDTTSRCRL 20 SLAY-screened peptide P2254 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGTTCGTCTTTTCACCTCCGTTGGAGGGCGTTGGATACGACCTCCCGCTGCCGTCTTTAA TCSSFHLRWRALDTTSRCRL* -1.717 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23905 CRWNYRYPYFYRI 13 SLAY-screened peptide P2255 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGTTGGAACTACAGGTACCCGTACTTCTACCGTATCTAGCACCGCAGGAACACCTTCTAA CRWNYRYPYFYRI*HRRNTF* -1.717 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23906 GSQYACFFYQSGKLLVRTI 19 SLAY-screened peptide P2256 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGAGTCAGTACGCGTGTTTTTTTTATCAGAGTGGCAAGTTGCTTGTTAGGACTATTTAGTAA GSQYACFFYQSGKLLVRTI** -1.717 0.000934 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23907 QVPSWFNPGVYRQILL 16 SLAY-screened peptide P2257 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGTCCCCTCTTGGTTCAACCCTGGCGTCTATCGTCAGATTCTGCTTTAGTGCCTGGCTTAA QVPSWFNPGVYRQILL*CLA* -1.717 0.005903 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23908 TTASPVCHLVPRYTPNTTIS 20 SLAY-screened peptide P2258 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACGGCTTCGCCCGTTTGCCACCTTGTTCCTAGGTACACGCCGAATACTACTATTTCCTAA TTASPVCHLVPRYTPNTTIS* -1.716 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23909 ITNHSYFPRLGTHSTQTSSC 20 SLAY-screened peptide P2259 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTACCAATCACAGTTATTTCCCGCGCTTGGGCACTCACTCGACCCAGACGTCCTCCTGCTAA ITNHSYFPRLGTHSTQTSSC* -1.716 0.00655 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23910 TLARLTVDVSNLKKNHDGLS 20 SLAY-screened peptide P2260 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTTGCCAGGCTGACTGTGGATGTCAGCAACTTGAAGAAGAATCATGACGGTTTGTCGTAA TLARLTVDVSNLKKNHDGLS* -1.716 0.012844 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23911 CNSPGTDPEPQYCVPYHKDP 20 SLAY-screened peptide P2261 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAACTCGCCGGGCACCGACCCTGAGCCCCAGTATTGCGTCCCGTATCATAAGGATCCTTAA CNSPGTDPEPQYCVPYHKDP* -1.716 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23912 ALLTASLVLRARIRLSMRNN 20 SLAY-screened peptide P2262 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCTCCTCACTGCCAGTCTTGTCCTGCGTGCCCGCATTCGTCTGTCCATGAGGAATAACTAA ALLTASLVLRARIRLSMRNN* -1.716 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23913 GRLPNHNGVPPSLATTGQCS 20 SLAY-screened peptide P2263 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCGCCTTCCGAACCACAATGGGGTTCCCCCTAGTTTGGCTACTACTGGCCAGTGCTCCTAA GRLPNHNGVPPSLATTGQCS* -1.716 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23914 LALAEHSTSMYPLRNRSSPW 20 SLAY-screened peptide P2264 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGCTCTCGCGGAGCACTCGACCAGTATGTATCCTTTGCGTAATCGCTCCTCGCCGTGGTAA LALAEHSTSMYPLRNRSSPW* -1.715 0.000015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23915 AIQRELNSTRYLSIARLSSLN 21 SLAY-screened peptide P2265 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCATTCAGCGTGAGCTTAACTCTACGCGGTACCTCTCAATAGCCAGACTAAGCAGCCTTAAC AIQRELNSTRYLSIARLSSLN -1.715 0.000313 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23916 GYTPESDLPKQYLMQFLFAY 20 SLAY-screened peptide P2266 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTATACGCCCGAGAGTGACCTCCCGAAGCAGTATCTTATGCAGTTCCTTTTTGCCTATTAA GYTPESDLPKQYLMQFLFAY* -1.715 0.030238 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23917 YTPPYSYLLMKTHRCIPSLI 20 SLAY-screened peptide P2267 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACGCCCCCCTACAGTTATCTTCTTATGAAGACTCACCGTTGTATTCCCTCTCTCATCTAA YTPPYSYLLMKTHRCIPSLI* -1.715 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23918 RSRSRGCFLGCTLDASPNAS 20 SLAY-screened peptide P2268 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAGCAGGAGCCGCGGCTGCTTCCTCGGTTGTACTCTTGATGCGAGCCCGAATGCCTCGTAA RSRSRGCFLGCTLDASPNAS* -1.714 0.00569 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23919 LPTPSDYILPRGPPCRIKPS 20 SLAY-screened peptide P2269 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCCACTCCCAGTGATTATATTCTTCCCCGCGGCCCTCCCTGCCGTATTAAGCCGTCGTAA LPTPSDYILPRGPPCRIKPS* -1.714 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23920 STHRMCPFRNPYLQLTAYFK 20 SLAY-screened peptide P2270 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCACGCACCGCATGTGTCCGTTCAGGAACCCTTACTTGCAGCTGACGGCGTATTTCAAGTAA STHRMCPFRNPYLQLTAYFK* -1.714 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23921 ITFHYHWYF 9 SLAY-screened peptide P2271 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTACTTTCCATTACCACTGGTACTTCTAGAGGTCGCACCATACCTTTAAGCACGGTTTTTAA ITFHYHWYF*RSHHTFKHGF* -1.714 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23922 SPCRRLRLRRSPIAIDFYSV 20 SLAY-screened peptide P2272 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCCTTGCCGGCGTCTGCGCCTGCGTCGTAGTCCCATCGCTATCGATTTCTATAGCGTGTAA SPCRRLRLRRSPIAIDFYSV* -1.713 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23923 THVPIDISSPTFTVVLLLLM 20 SLAY-screened peptide P2273 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCATGTTCCCATCGACATTTCGTCGCCGACTTTTACTGTGGTTCTCTTGCTGCTTATGTAA THVPIDISSPTFTVVLLLLM* -1.713 0.000047 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23924 SQPFVDAPGSKFQTHDIMRN 20 SLAY-screened peptide P2274 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCAGCCGTTTGTGGACGCGCCCGGTTCGAAGTTTCAGACGCATGATATCATGAGGAACTAA SQPFVDAPGSKFQTHDIMRN* -1.713 0.000605 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23925 LCRATPPQSATDAAVYFNHR 20 SLAY-screened peptide P2275 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTGCCGTGCGACCCCCCCCCAGTCGGCTACTGACGCTGCCGTGTATTTTAACCATCGGTAA LCRATPPQSATDAAVYFNHR* -1.713 0.001947 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23926 QGYS 4 SLAY-screened peptide P2276 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGGCTACAGTTAGGCTCCGCCGGTCCATGATACTACCAATGCGGCTCCTAACCATGTCTAA QGYS*APPVHDTTNAAPNHV* -1.713 0.000068 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23927 SRRIDYESNSEEAQVITT 18 SLAY-screened peptide P2277 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGCCGTATCGATTATGAGAGCAACTCTGAGGAGGCCCAGGTGATTACTACTTAGTCCTAA SRRIDYESNSEEAQVITT*S* -1.713 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23928 LLEYGYDKLRLGAGLYSPIH 20 SLAY-screened peptide P2278 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTCGAGTATGGTTATGATAAGCTGCGCTTGGGTGCCGGGCTCTACAGCCCTATCCATTAA LLEYGYDKLRLGAGLYSPIH* -1.713 0.000041 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23929 RYNCNSDCYTTVYHDSFTDS 20 SLAY-screened peptide P2279 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTATAATTGCAACTCGGACTGCTATACTACTGTCTATCATGATAGTTTCACCGACTCCTAA RYNCNSDCYTTVYHDSFTDS* -1.712 0.00005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23930 SVADNPPWIAPICAPFAFSIN 21 SLAY-screened peptide P2280 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGTCGCTGACAACCCTCCTTGGATCGCGCCCATCTGCGCACCCTTTGCGTTTTCGATTAAC SVADNPPWIAPICAPFAFSIN -1.712 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23931 LRKLILWIVATRWPFVRRSFN 21 SLAY-screened peptide P2281 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGTAAGCTTATCCTGTGGATAGTTGCCACGCGCTGGCCATTTGTTCGCAGAAGCTTTAAC LRKLILWIVATRWPFVRRSFN -1.712 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23932 LPPALRMQVFIPITSVITNPN 21 SLAY-screened peptide P2282 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCCCCGGCGCTCCGCATGCAGGTTTTTATTCCCATCACCAGTGTTATCACTAATCCTAAC LPPALRMQVFIPITSVITNPN -1.712 0.000602 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23933 PSQAPNTRVDSASCPGRAKP 20 SLAY-screened peptide P2283 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGTCAGGCCCCTAATACTCGTGTTGACTCTGCGAGTTGTCCGGGGCGTGCTAAGCCTTAA PSQAPNTRVDSASCPGRAKP* -1.712 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23934 LTSTSINRVRLSRASMTFLM 20 SLAY-screened peptide P2284 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACTAGTACCAGTATCAATCGTGTGCGTCTTTCCCGTGCTTCTATGACTTTTTTGATGTAA LTSTSINRVRLSRASMTFLM* -1.711 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23935 SSRPAAIFQPRTYFNSLALS 20 SLAY-screened peptide P2285 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCTCGCCCCGCCGCTATTTTTCAGCCGCGTACCTACTTCAACAGCCTCGCGTTGTCCTAA SSRPAAIFQPRTYFNSLALS* -1.711 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23936 DAHQNGVTLILCVPQHNSIA 20 SLAY-screened peptide P2286 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGCTCATCAGAACGGCGTCACGCTCATTCTGTGCGTGCCGCAGCATAATTCGATCGCTTAA DAHQNGVTLILCVPQHNSIA* -1.711 0.021184 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23937 PTSSYWPVRT 10 SLAY-screened peptide P2287 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCTCTAGTTATTGGCCTGTTAGGACGTAGAGCCTGCTTTGCTAGCTCCTCTGCCCCTAA PTSSYWPVRT*SLLC*LLCP* -1.711 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23938 MSSVDCHHNKYPPVIACIPS 20 SLAY-screened peptide P2288 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTCTAGTGTTGATTGCCACCACAACAAGTACCCTCCGGTCATTGCTTGCATTCCCAGCTAA MSSVDCHHNKYPPVIACIPS* -1.711 0.014549 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23939 LLGYILSILYDLIFLWSTCL 20 SLAY-screened peptide P2289 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCTCGGGTACATTCTTTCGATCTTGTACGATCTTATTTTCCTCTGGAGCACCTGTCTCTAA LLGYILSILYDLIFLWSTCL* -1.711 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23940 HIKETPPIPSVFLLGDHALI 20 SLAY-screened peptide P2290 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATTAAGGAGACGCCGCCCATTCCGTCGGTTTTCCTTCTCGGCGACCATGCTCTTATCTAA HIKETPPIPSVFLLGDHALI* -1.711 0.013553 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23941 TIVAPSVPPRRLMILPPHVA 20 SLAY-screened peptide P2291 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCATCGTCGCCCCCTCGGTGCCGCCTAGGCGCTTGATGATCTTGCCCCCTCACGTCGCGTAA TIVAPSVPPRRLMILPPHVA* -1.71 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23942 NNSTWDHPSHNIVGVLIFMFT 21 SLAY-screened peptide P2292 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATAATTCTACTTGGGATCACCCCTCTCATAATATTGTCGGTGTTTTGATTTTTATGTTTACT NNSTWDHPSHNIVGVLIFMFT -1.71 0.00543 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23943 GYYCYRAALRVPASSAYPFH 20 SLAY-screened peptide P2293 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGTACTATTGCTATCGGGCCGCCCTTCGGGTGCCGGCGTCTAGTGCCTACCCTTTCCATTAA GYYCYRAALRVPASSAYPFH* -1.71 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23944 NSIALSGHEWTQAGRTGNLA 20 SLAY-screened peptide P2294 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTCTATCGCTCTCTCTGGTCACGAGTGGACGCAGGCGGGCCGCACTGGGAATCTCGCGTAA NSIALSGHEWTQAGRTGNLA* -1.709 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23945 IHDSGRKSNSESLAPCYYNV 20 SLAY-screened peptide P2295 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCACGACAGTGGCCGGAAGAGTAACTCTGAGAGTCTGGCTCCTTGTTACTATAACGTCTAA IHDSGRKSNSESLAPCYYNV* -1.709 0.005877 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23946 SHSYRSLPCFTT 12 SLAY-screened peptide P2296 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCACTCGTACCGGAGTTTGCCGTGTTTCACCACCTAGCCTATTCGCGCTCTCACGGTTTAA SHSYRSLPCFTT*PIRALTV* -1.709 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23947 CRISCVFLPSRPTYLRMPLL 20 SLAY-screened peptide P2297 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAGGATCTCTTGTGTTTTCCTCCCCAGCCGCCCCACGTATTTGCGTATGCCCTTGCTTTAA CRISCVFLPSRPTYLRMPLL* -1.709 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23948 PVCATAARTPNLYHLADPST 20 SLAY-screened peptide P2298 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTTTGCGCCACTGCCGCTCGTACGCCTAATTTGTATCACCTCGCGGACCCTAGCACCTAA PVCATAARTPNLYHLADPST* -1.708 0.000749 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23949 AQPYT 5 SLAY-screened peptide P2299 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCAGCCTTACACCTAGGATACTTCGGATAAGCAGAACTCTAAGAATTACCGCCTGCGCTAA AQPYT*DTSDKQNSKNYRLR* -1.708 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23950 LIYGYFLRLYCSPMSSMI 18 SLAY-screened peptide P2300 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATTTATGGGTATTTCCTTCGGCTGTATTGCTCCCCGATGTCCTCCATGATTTAGGTGTAA LIYGYFLRLYCSPMSSMI*V* -1.708 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23951 AQVRLARISYTSPLPSLPRGN 21 SLAY-screened peptide P2301 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCAGGTTAGGCTTGCTAGGATCTCTTACACCAGCCCGCTACCTTCATTACCACGCGGTAAC AQVRLARISYTSPLPSLPRGN -1.707 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23952 PDNEQLTNCTNHSLFAKFTA 20 SLAY-screened peptide P2302 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGATAACGAGCAGCTCACTAACTGCACTAATCACAGCCTTTTTGCCAAGTTCACTGCCTAA PDNEQLTNCTNHSLFAKFTA* -1.707 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23953 LHPPNITPSVDSNY 14 SLAY-screened peptide P2303 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCACCCCCCCAACATCACGCCCTCCGTGGACTCTAATTATTAGAACTTGGATGTTTTTTAA LHPPNITPSVDSNY*NLDVF* -1.707 0.000899 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23954 VAPAGPLPL 9 SLAY-screened peptide P2304 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGCTCCTGCTGGTCCTCTGCCGTTGTAGTAGGGTTTTTTTCTTTATCCTCCTATCGGTTAA VAPAGPLPL**GFFLYPPIG* -1.707 0.000156 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23955 PIEYLLVSLNHHYLSHA 17 SLAY-screened peptide P2305 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATCGAGTATTTGCTGGTCAGCCTGAATCACCATTATTTGAGTCATGCTTAGGAGCTTTAA PIEYLLVSLNHHYLSHA*EL* -1.707 0.002435 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23956 SHNITSSVCYHLYWDFSSLR 20 SLAY-screened peptide P2306 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCATAATATCACTAGTAGCGTTTGTTACCATCTTTACTGGGACTTCTCTAGCCTCCGGTAA SHNITSSVCYHLYWDFSSLR* -1.706 0.007143 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23957 LRVGFFSIHSTRRKRHR 17 SLAY-screened peptide P2307 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGCGTCGGGTTCTTTAGTATTCACTCCACGAGGCGCAAGCGGCATCGGTAGTATAGCTAA LRVGFFSIHSTRRKRHR*YS* -1.706 0.001085 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23958 PPYRSSVSRFTN 12 SLAY-screened peptide P2308 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCTTACCGTTCGAGCGTTTCTCGCTTCACCAATTAGGCGTCTTTTTTGGATGCTGACTAA PPYRSSVSRFTN*ASFLDAD* -1.706 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23959 GFSTMPVPLCIFPSPWWTSI 20 SLAY-screened peptide P2309 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTTTTCCACTATGCCCGTGCCTTTGTGTATCTTTCCTTCTCCTTGGTGGACCAGCATCTAA GFSTMPVPLCIFPSPWWTSI* -1.706 0.021577 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23960 HIYTDGPDPHNVYCNSICRH 20 SLAY-screened peptide P2310 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATCTATACTGACGGCCCGGATCCTCACAACGTTTATTGTAACAGCATTTGTCGCCACTAA HIYTDGPDPHNVYCNSICRH* -1.705 0.000267 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23961 VGPALPRSLPIGIYVTPLSS 20 SLAY-screened peptide P2311 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGGCCCGGCCCTTCCCCGCTCGCTTCCGATCGGTATCTATGTCACGCCTTTGTCGTCCTAA VGPALPRSLPIGIYVTPLSS* -1.705 0.02888 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23962 LSCSSDSRNNGLSCTY 16 SLAY-screened peptide P2312 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCCTGCTCTTCTGATAGCCGCAACAACGGCCTGAGCTGCACTTACTAGCTTCGCTGCTAA LSCSSDSRNNGLSCTY*LRC* -1.705 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23963 PCRKNFSLRCFVSNLGDNML 20 SLAY-screened peptide P2313 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGCCGTAAGAATTTTTCCTTGCGGTGTTTCGTCAGTAATCTGGGCGACAACATGCTCTAA PCRKNFSLRCFVSNLGDNML* -1.705 0.002989 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23964 PLPVRTMSFTVPRSCTSIPS 20 SLAY-screened peptide P2314 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTTCCCGTTAGGACCATGAGTTTCACGGTGCCTCGCTCTTGCACTTCCATCCCGTCCTAA PLPVRTMSFTVPRSCTSIPS* -1.705 0.005139 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23965 TSYLRCSYCAGGMYGLRRSD 20 SLAY-screened peptide P2315 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTCTTACCTCCGTTGTTCTTATTGCGCCGGTGGTATGTATGGCCTGCGCCGGTCCGACTAA TSYLRCSYCAGGMYGLRRSD* -1.704 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23966 SSTGSSNRATYAYTSATHKP 20 SLAY-screened peptide P2316 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTCTACTGGTAGCTCGAACAGGGCCACGTATGCTTACACGTCTGCTACTCATAAGCCCTAA SSTGSSNRATYAYTSATHKP* -1.704 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23967 RD 2 SLAY-screened peptide P2317 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGATTAGTGTTATCGTTTGGACCATGAGTCCCCTGGTCGCAACTACTTTTAGCGTCCGTAA RD*CYRLDHESPGRNYF*RP* -1.704 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23968 CMRVLVLFRWRRSLRDL 17 SLAY-screened peptide P2318 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTATGAGGGTCCTGGTTCTGTTCAGGTGGCGCCGGAGTCTCCGTGATCTGTAGACCATGTAA CMRVLVLFRWRRSLRDL*TM* -1.704 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23969 QTNLSMDSHYSIAQPLCHSL 20 SLAY-screened peptide P2319 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGACCAATCTGAGTATGGACTCCCATTATTCTATTGCTCAGCCCCTCTGCCATTCCCTTTAA QTNLSMDSHYSIAQPLCHSL* -1.704 0.005167 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23970 CNTIRDKWVQMLYAMPTDYL 20 SLAY-screened peptide P2320 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAACACTATTCGCGACAAGTGGGTCCAGATGCTCTATGCGATGCCGACTGACTATCTTTAA CNTIRDKWVQMLYAMPTDYL* -1.703 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23971 NDPRLPSYYRHFLSLGFTTD 20 SLAY-screened peptide P2321 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGATCCGCGCTTGCCGAGCTACTATCGGCATTTCTTGTCGCTGGGTTTCACCACTGATTAA NDPRLPSYYRHFLSLGFTTD* -1.703 0.023868 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23972 SGRNGRTHGHHGTNRLLVRD 20 SLAY-screened peptide P2322 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGGGCGCAACGGTCGGACCCATGGGCATCATGGCACCAACCGGCTCTTGGTCCGTGATTAA SGRNGRTHGHHGTNRLLVRD* -1.703 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23973 ATPRFCNGVGCCWSSWILL 19 SLAY-screened peptide P2323 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTACCCCTCGTTTTTGTAATGGCGTTGGTTGCTGTTGGTCGAGCTGGATCCTTCTGTAGTAA ATPRFCNGVGCCWSSWILL** -1.703 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23974 RNVVGPYRCRACNALRINNT 20 SLAY-screened peptide P2324 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAATGTCGTCGGCCCTTATCGCTGTAGGGCGTGCAACGCTCTTCGCATCAACAATACGTAA RNVVGPYRCRACNALRINNT* -1.703 0.000091 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23975 LQLTAFLKLVYRLISTYASP 20 SLAY-screened peptide P2325 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCAGCTTACTGCCTTTTTGAAGCTTGTTTACCGTCTTATTTCGACCTACGCTTCCCCTTAA LQLTAFLKLVYRLISTYASP* -1.702 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23976 RPPLPSSVLSFQAPHIYTLS 20 SLAY-screened peptide P2326 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCGCCCCTTCCGTCCTCGGTTCTTAGCTTCCAGGCCCCTCATATCTACACCCTTTCCTAA RPPLPSSVLSFQAPHIYTLS* -1.702 0.00004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23977 RVHDFPWGSAGLSYNVSPITN 21 SLAY-screened peptide P2327 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGTTCACGATTTTCCTTGGGGCTCGGCCGGTCTCAGTTATAACGTGTCGCCTATAACTAAC RVHDFPWGSAGLSYNVSPITN -1.701 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23978 CRGAATPMYLNRSRRHYAGL 20 SLAY-screened peptide P2328 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGGGGGGCTGCGACCCCCATGTACTTGAACCGCTCGCGCCGTCATTATGCGGGCTTGTAA CRGAATPMYLNRSRRHYAGL* -1.701 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23979 LDLHLSPIFAPLCYSFLGSL 20 SLAY-screened peptide P2329 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGACCTTCACCTTTCGCCGATTTTCGCTCCTCTTTGCTATTCTTTCCTGGGGAGTCTTTAA LDLHLSPIFAPLCYSFLGSL* -1.701 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23980 IPFIYF 6 SLAY-screened peptide P2330 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCCTTCATCTACTTTTAGGATACGCACACGGGCGTGATCGACAAGGCTTAGTAGGCTTAA IPFIYF*DTHTGVIDKA**A* -1.701 0.010875 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23981 AQPPADSRPAPNLFL 15 SLAY-screened peptide P2331 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCAGCCGCCCGCTGATTCTCGTCCGGCTCCGAACCTTTTCCTGTAGAGTTCCCTCTTAGTA AQPPADSRPAPNLFL*SSLLV -1.701 0.016131 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23982 HGNNTTRTSFKLSRLTTFFV 20 SLAY-screened peptide P2332 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGGTAACAACACCACGCGCACCAGCTTCAAGTTGTCCCGTCTCACGACTTTCTTCGTCTAA HGNNTTRTSFKLSRLTTFFV* -1.701 0.020868 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23983 RILRGRARHFGNAKRPLTSR 20 SLAY-screened peptide P2333 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGATCCTGCGGGGCCGCGCCCGCCACTTTGGCAACGCTAAGCGGCCCCTGACCTCTCGTTAA RILRGRARHFGNAKRPLTSR* -1.701 0.000073 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23984 IHPHLLHCKNLFTRYNKYTH 20 SLAY-screened peptide P2334 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCACCCCCATCTGCTCCATTGTAAGAACCTTTTTACGCGCTATAACAAGTATACCCATTAA IHPHLLHCKNLFTRYNKYTH* -1.701 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23985 YYHTNHAYCDSFKITYEWLP 20 SLAY-screened peptide P2335 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTACCATACCAACCACGCCTACTGTGACTCTTTTAAGATCACCTATGAGTGGCTCCCGTAA YYHTNHAYCDSFKITYEWLP* -1.701 0.029454 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23986 RSRRLVFRLINLFCPMCFSS 20 SLAY-screened peptide P2336 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCCCGCCGCCTGGTGTTCCGTCTGATTAATCTCTTTTGCCCTATGTGTTTTTCCTCCTAA RSRRLVFRLINLFCPMCFSS* -1.7 0.000189 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23987 PPNHQWRQMTTYSCRTSRAN 20 SLAY-screened peptide P2337 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCAACCACCAGTGGCGTCAGATGACTACTTACTCGTGTCGGACCTCTCGGGCTAATTAA PPNHQWRQMTTYSCRTSRAN* -1.7 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23988 GPAYTIHSVLSTSPTRLWSP 20 SLAY-screened peptide P2338 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCCCGCTTATACGATTCACTCGGTCCTTAGCACTTCTCCCACCAGGTTGTGGAGTCCGTAA GPAYTIHSVLSTSPTRLWSP* -1.7 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23989 SPKQPVASSCRPRRALPEELT 21 SLAY-screened peptide P2339 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCCAAGCAGCCCGTTGCCAGTAGTTGCCGTCCGCGTCGCGCGCTCCCTGAAGAGCTAACT SPKQPVASSCRPRRALPEELT -1.7 0.000071 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23990 PGWNNTKRYRKRLPLYRCMN 20 SLAY-screened peptide P2340 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGGTTGGAATAACACTAAGCGTTACCGCAAGCGTCTTCCCCTTTACCGCTGCATGAATTAA PGWNNTKRYRKRLPLYRCMN* -1.7 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23991 LYKVYKYLFPISLLKNMTPF 20 SLAY-screened peptide P2341 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTATAAGGTCTACAAGTATTTGTTTCCCATTTCGTTGTTGAAGAACATGACTCCGTTTTAA LYKVYKYLFPISLLKNMTPF* -1.699 0.00013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23992 FHALWLVATGYFFNRVKMLS 20 SLAY-screened peptide P2342 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCACGCGCTCTGGCTCGTTGCCACCGGCTATTTTTTTAATAGGGTTAAGATGCTTTCTTAA FHALWLVATGYFFNRVKMLS* -1.699 0.000026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23993 RRVMYNSDTYSTRGQIKYH 19 SLAY-screened peptide P2343 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCGCGTTATGTATAATTCCGACACGTATAGCACCAGGGGTCAGATTAAGTATCACTAGTAA RRVMYNSDTYSTRGQIKYH** -1.699 0.002533 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23994 VVDAPRDAPRVLDI 14 SLAY-screened peptide P2344 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGTTGATGCGCCTCGGGATGCCCCGCGGGTTCTTGACATTTAGCGGCTTCTGGCTTGGTAA VVDAPRDAPRVLDI*RLLAW* -1.699 0.012605 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23995 PLIPWRANIPTCPCWFCHYL 20 SLAY-screened peptide P2345 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCATTCCGTGGCGTGCCAATATCCCGACGTGTCCTTGCTGGTTCTGCCACTACCTTTAA PLIPWRANIPTCPCWFCHYL* -1.699 0.017275 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23996 FVRDLVTSFRRDVFTRCTKG 20 SLAY-screened peptide P2346 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGTCCGGGACCTTGTCACGTCCTTTAGGCGTGATGTGTTTACTCGTTGCACCAAGGGCTAA FVRDLVTSFRRDVFTRCTKG* -1.698 0.017482 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23997 SVKGHCKFFLNCQRASYSPY 20 SLAY-screened peptide P2347 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGTTAAGGGTCATTGCAAGTTTTTTCTGAACTGTCAGAGGGCGAGCTATTCGCCCTACTAA SVKGHCKFFLNCQRASYSPY* -1.698 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23998 PPPYSLGSSAVYDSIPIYFL 20 SLAY-screened peptide P2348 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTCCTTACAGCCTGGGTTCCTCGGCTGTTTACGATAGCATCCCGATTTATTTTTTGTAA PPPYSLGSSAVYDSIPIYFL* -1.698 0.000061 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP23999 TACDPYNIHAYHL 13 SLAY-screened peptide P2349 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCGTGTGATCCGTACAATATCCACGCGTATCATCTGTAGTTTAACTAGCGTTGGTATTAA TACDPYNIHAYHL*FN*RWY* -1.698 0.000242 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24000 RRMQCPYCLLAISANSYTLN 20 SLAY-screened peptide P2350 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGCATGCAGTGCCCTTACTGCCTGTTGGCCATTTCCGCGAACTCCTACACTCTTAACTAA RRMQCPYCLLAISANSYTLN* -1.697 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24001 FIFYSV 6 SLAY-screened peptide P2351 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCATCTTTTACTCCGTTTAGTATTTTAGCCGGTTTCTTAAGATCCTTCCCCTTGATTTCTAA FIFYSV*YFSRFLKILPLDF* -1.697 0.000714 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24002 LFIAFLSILHIQLTFLITRR 20 SLAY-screened peptide P2352 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTCATTGCTTTCTTGAGTATTTTGCACATTCAGCTGACCTTTTTGATTACCCGCCGTTAA LFIAFLSILHIQLTFLITRR* -1.697 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24003 AVNRYICRMPCRIRRPST 18 SLAY-screened peptide P2353 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGTCAACCGTTACATCTGCCGCATGCCGTGTCGGATCAGGCGGCCTTCGACTTAGACTTAC AVNRYICRMPCRIRRPST*TY -1.697 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24004 WPVDSTLAFLSVFFLH 16 SLAY-screened peptide P2354 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCCGTCGATAGTACGCTCGCGTTCCTCTCGGTCTTCTTTCTGCATTAGTACGTTTTCTAA WPVDSTLAFLSVFFLH*YVF* -1.696 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24005 DTTPVCNMCPSPQESYCRSQ 20 SLAY-screened peptide P2355 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATACGACCCCCGTGTGTAACATGTGCCCGTCGCCGCAGGAGTCTTACTGTAGGAGTCAGTAA DTTPVCNMCPSPQESYCRSQ* -1.696 0.000121 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24006 DLRSGERHTRCIEDNFLITT 20 SLAY-screened peptide P2356 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCTTCGTTCCGGCGAGAGGCACACTCGCTGTATTGAGGATAATTTCCTCATTACGACCTAA DLRSGERHTRCIEDNFLITT* -1.696 0.000164 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24007 SEIFNNYTREKHCCPNSLTVY 21 SLAY-screened peptide P2357 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGAGATTTTCAATAATTATACTCGTGAGAAGCACTGCTGTCCGAATTCTCTCACTGTGTAC SEIFNNYTREKHCCPNSLTVY -1.696 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24008 MLGAVPTMQPAINTFGA 17 SLAY-screened peptide P2358 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCTCGGGGCGGTCCCCACCATGCAGCCGGCGATCAACACCTTCGGGGCCTAGTGTGTTTAA MLGAVPTMQPAINTFGA*CV* -1.696 0.021254 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24009 TITPRGFHRISTIGNCCRHA 20 SLAY-screened peptide P2359 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCATCACCCCTCGGGGCTTTCATAGGATCAGTACTATCGGTAACTGCTGCCGCCACGCCTAA TITPRGFHRISTIGNCCRHA* -1.695 0.025356 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24010 RLHDDMPKITTAYKGFCHSI 20 SLAY-screened peptide P2360 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCTTCACGACGATATGCCCAAGATCACTACTGCCTATAAGGGGTTTTGCCACTCGATTTAA RLHDDMPKITTAYKGFCHSI* -1.695 0.000247 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24011 KYHPDLRIVYICFSLYCSTY 20 SLAY-screened peptide P2361 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTACCACCCGGATTTGCGTATTGTGTATATCTGTTTTTCCCTCTACTGTAGCACTTATTAA KYHPDLRIVYICFSLYCSTY* -1.695 0.003804 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24012 ILRRRRTRHHSYVVITLSFD 20 SLAY-screened peptide P2362 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTGCGTCGTCGTCGGACGAGGCATCACTCGTATGTTGTCATTACTCTGTCGTTTGACTAA ILRRRRTRHHSYVVITLSFD* -1.695 0.001392 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24013 SYRFKAEACFLDFSEDNSFC 20 SLAY-screened peptide P2363 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTATAGGTTCAAGGCGGAGGCCTGTTTCCTTGATTTTTCCGAGGATAATTCTTTCTGTTAA SYRFKAEACFLDFSEDNSFC* -1.695 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24014 PIHTTYRTRRHRHSRMYRIP 20 SLAY-screened peptide P2364 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATCCACACGACTTACCGGACTCGTCGGCACCGGCACTCCCGTATGTACCGTATTCCGTAA PIHTTYRTRRHRHSRMYRIP* -1.694 0.007332 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24015 VTQFPESIYALPDLNHFKYI 20 SLAY-screened peptide P2365 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCACTCAGTTCCCGGAGTCTATCTATGCCCTCCCCGACCTCAACCATTTTAAGTATATTTAA VTQFPESIYALPDLNHFKYI* -1.694 0.000051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24016 RHSYGSAYSKPLVYIPPGTT 20 SLAY-screened peptide P2366 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCATTCTTATGGGAGTGCGTACTCTAAGCCTTTGGTTTATATTCCGCCGGGCACCACTTAA RHSYGSAYSKPLVYIPPGTT* -1.694 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24017 NYMYSYTFP 9 SLAY-screened peptide P2367 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTACATGTACAGCTACACGTTCCCATGATCTGTACCTGGTTGTGTGGTACCAAGGACTAAC NYMYSYTFP*SVPGCVVPRTN -1.694 0.000637 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24018 APMEGQ 6 SLAY-screened peptide P2368 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCCATGGAGGGCCAGTAGATCCCCATCCACAACACCGTTAATCATTACAACGTCAGGTAA APMEGQ*IPIHNTVNHYNVR* -1.693 0.028063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24019 SHFRAYLMLL 10 SLAY-screened peptide P2369 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCATTTTCGTGCGTATCTTATGCTGCTCTAGTTTGCTGGGTCGATGTCCGACAACCGCTAA SHFRAYLMLL*FAGSMSDNR* -1.693 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24020 GLRTTHEVDHALSSHISGHH 20 SLAY-screened peptide P2370 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGTTGCGCACCACGCACGAGGTCGACCATGCGCTTAGCTCGCATATCTCTGGTCATCACTAA GLRTTHEVDHALSSHISGHH* -1.693 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24021 QDAIDHPFHAYRSKINTYLM 20 SLAY-screened peptide P2371 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGATGCTATCGACCATCCGTTCCATGCCTACCGTAGTAAGATTAACACTTATCTGATGTAA QDAIDHPFHAYRSKINTYLM* -1.693 0.040637 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24022 SQQATIRVDYLRFLYIQHYL 20 SLAY-screened peptide P2372 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCAGCAGGCGACTATCCGCGTGGACTATCTCAGGTTCCTTTATATTCAGCATTATCTGTAA SQQATIRVDYLRFLYIQHYL* -1.693 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24023 NIFYDRDNSCPRETTHFDYR 20 SLAY-screened peptide P2373 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATATCTTTTACGATCGCGATAACTCTTGTCCCCGGGAGACCACTCACTTTGACTACCGTTAA NIFYDRDNSCPRETTHFDYR* -1.693 0.00156 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24024 LHVYYPFLL 9 SLAY-screened peptide P2374 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCACGTGTACTACCCTTTTCTCCTGTAGACGGTTAATCCCTGTCCTTGCGAGTAGCACTAA LHVYYPFLL*TVNPCPCE*H* -1.693 0.001921 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24025 AHLYPTALYN 10 SLAY-screened peptide P2375 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCATCTTTACCCGACTGCGCTGTATAATTAGGTGACTGCCCCTATCTTGGCTCCGCGTTAA AHLYPTALYN*VTAPILAPR* -1.693 0.018557 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24026 DSFMDAWSGNYFLTPVRRSRN 21 SLAY-screened peptide P2376 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTCTTTTATGGATGCTTGGTCGGGTAACTATTTTTTGACACCAGTTCGCAGGTCTCGTAAC DSFMDAWSGNYFLTPVRRSRN -1.693 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24027 SANRIRIHFLMITNITHQDD 20 SLAY-screened peptide P2377 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCTAACCGCATCAGGATCCATTTTCTTATGATCACTAACATCACTCACCAGGATGACTAA SANRIRIHFLMITNITHQDD* -1.692 0.000517 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24028 HPHYYEYCSTATSPTNNIGS 20 SLAY-screened peptide P2378 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCCCATTATTATGAGTACTGCTCCACGGCCACCAGTCCCACTAATAATATCGGTAGCTAA HPHYYEYCSTATSPTNNIGS* -1.692 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24029 PALIQSAQHVLSDTFCLLCC 20 SLAY-screened peptide P2379 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCCCTTATCCAGAGTGCTCAGCATGTTCTGTCTGATACCTTTTGCCTCCTCTGTTGTTAA PALIQSAQHVLSDTFCLLCC* -1.692 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24030 SL 2 SLAY-screened peptide P2380 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTTGTAGTTTTCGTGTCTTGACCGTTGTATTGATCTTCACATTTGTGTTCATTATACCTAA SL*FSCLDRCIDLHICVHYT* -1.692 0.001525 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24031 IPDVLLDSWNRYGRFIL 17 SLAY-screened peptide P2381 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCTGACGTCCTCCTGGACTCCTGGAACAGGTACGGAAGGTTCATACTTTGACGCTCTAAC IPDVLLDSWNRYGRFIL*RSN -1.692 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24032 VPNAYPSQRSYHPPSLSSIT 20 SLAY-screened peptide P2382 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCCCAACGCCTATCCGAGTCAGAGGTCTTACCATCCCCCTAGCCTTAGCTCGATTACCTAA VPNAYPSQRSYHPPSLSSIT* -1.692 0.002021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24033 PDVLD 5 SLAY-screened peptide P2383 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGATGTGCTGGACTAGCCGGTCGTCAGCCGTCTCATCTACAGGGACCGTCCGGACAACTAA PDVLD*PVVSRLIYRDRPDN* -1.691 0.020668 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24034 RRAGAQITLSVLFYPGCALV 20 SLAY-screened peptide P2384 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCGCGCCGGGGCTCAGATTACCCTTAGCGTGCTTTTTTATCCCGGCTGCGCTTTGGTTTAA RRAGAQITLSVLFYPGCALV* -1.69 0.000069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24035 LPSRNPYGWSTVAGPLIHII 20 SLAY-screened peptide P2385 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCCAGCCGGAATCCCTACGGTTGGTCCACTGTTGCTGGCCCTCTTATTCATATTATTTAA LPSRNPYGWSTVAGPLIHII* -1.69 0.023234 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24036 NACCVFAPAPCADRGALGCN 20 SLAY-screened peptide P2386 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGCCTGCTGTGTCTTTGCCCCGGCCCCCTGTGCTGACCGTGGTGCTTTGGGGTGTAATTAA NACCVFAPAPCADRGALGCN* -1.69 0.015092 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24037 VNSVTIVLVFSLFFRRGN 18 SLAY-screened peptide P2387 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTAATTCCGTAACAATCGTACTTGTCTTCTCATTGTTTTTTAGACGGGGTAACTGAGTAAGT VNSVTIVLVFSLFFRRGN*VS -1.69 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24038 ALSASIGDFSRNPLKFVSNN 20 SLAY-screened peptide P2388 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCTCTCTGCCTCGATCGGTGACTTTTCGAGGAACCCTTTGAAGTTCGTCTCGAACAATTAA ALSASIGDFSRNPLKFVSNN* -1.69 0.001836 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24039 PLTCPLSCCLWAWAPRRSLV 20 SLAY-screened peptide P2389 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTACCTGCCCGCTCAGCTGCTGCCTCTGGGCTTGGGCCCCTCGTAGGAGTCTGGTTTAA PLTCPLSCCLWAWAPRRSLV* -1.69 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24040 YAIYSLDFNDGFSHVTPDWS 20 SLAY-screened peptide P2390 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCTATCTATTCGCTGGATTTTAATGACGGGTTCAGTCACGTTACTCCCGATTGGTCTTAA YAIYSLDFNDGFSHVTPDWS* -1.69 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24041 QALPAPNALTRATVIGVHFI 20 SLAY-screened peptide P2391 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGCGCTGCCCGCTCCCAACGCGCTTACGCGCGCGACTGTGATTGGCGTGCACTTCATTTAA QALPAPNALTRATVIGVHFI* -1.69 0.001147 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24042 VRVKAHINRLFLTYKHVYAD 20 SLAY-screened peptide P2392 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCAGGGTTAAGGCGCACATTAACCGTCTTTTTCTGACTTATAAGCATGTTTATGCCGACTAA VRVKAHINRLFLTYKHVYAD* -1.689 0.008145 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24043 CA 2 SLAY-screened peptide P2393 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCGTAGAGCCAGACTGGAATTTGTCGCGCACGGGGCCTTATGGTAAGTAGCATAAGTAAC CA*SQTGICRARGLMVSSISN -1.689 0.00087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24044 SHWNNFHFTFTCEVGHPKLC 20 SLAY-screened peptide P2394 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCACTGGAATAATTTTCACTTCACGTTTACCTGTGAGGTTGGGCACCCTAAGCTGTGTTAA SHWNNFHFTFTCEVGHPKLC* -1.689 0.017499 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24045 ELPLVHALVFWLRITQSPVV 20 SLAY-screened peptide P2395 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCTGCCTCTGGTCCACGCCCTGGTTTTTTGGCTGCGTATCACTCAGTCGCCCGTGGTTTAA ELPLVHALVFWLRITQSPVV* -1.689 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24046 VYPHPTPGHATNCDAPCRFV 20 SLAY-screened peptide P2396 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTATCCTCACCCTACCCCCGGGCATGCTACCAATTGTGACGCGCCTTGTCGGTTCGTGTAA VYPHPTPGHATNCDAPCRFV* -1.688 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24047 AMTRILTISTSTVSG 15 SLAY-screened peptide P2397 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGATGACGCGTATTTTAACAATATCCACATCAACTGTAAGTGGCTGATTATTTATTATTAAC AMTRILTISTSTVSG*LFIIN -1.688 0.0022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24048 SYQPIIRITSIPYTLSL 17 SLAY-screened peptide P2398 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTATCAGCCCATTATCCGCATTACGTCCATCCCCTACACCCTTTCCCTCTAGTGTCGTTAA SYQPIIRITSIPYTLSL*CR* -1.688 0.001819 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24049 NQTVGGPSRHHTAELLRIVD 20 SLAY-screened peptide P2399 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCAGACTGTGGGCGGCCCGTCCCGTCATCACACCGCTGAGCTCCTCAGGATCGTGGACTAA NQTVGGPSRHHTAELLRIVD* -1.688 0.046602 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24050 PCTPLNNSSRLYDLAPSSTA 20 SLAY-screened peptide P2400 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTACGCCGCTTAATAACAGTAGCCGTCTGTACGATTTGGCTCCCAGCAGTACCGCGTAA PCTPLNNSSRLYDLAPSSTA* -1.688 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24051 SHASTCFMYWLSKFTTTLIR 20 SLAY-screened peptide P2401 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCACGCCTCGACTTGCTTTATGTACTGGCTGAGTAAGTTTACTACGACTCTTATTCGCTAA SHASTCFMYWLSKFTTTLIR* -1.688 0.007768 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24052 HPSSEAVYSSLCLITPATGS 20 SLAY-screened peptide P2402 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCCAGCTCGGAGGCCGTTTATTCTTCCCTCTGTCTTATTACCCCCGCGACCGGCTCTTAA HPSSEAVYSSLCLITPATGS* -1.687 0.000186 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24053 GDHFTHAPATSQHICPMFAD 20 SLAY-screened peptide P2403 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGACCATTTTACTCACGCCCCGGCGACCAGCCAGCATATCTGTCCTATGTTTGCTGACTAA GDHFTHAPATSQHICPMFAD* -1.687 0.024453 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24054 HPLSPNREPFCPHATWYKLP 20 SLAY-screened peptide P2404 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTCTGAGTCCCAACCGTGAGCCTTTTTGTCCGCACGCTACGTGGTACAAGCTCCCCTAA HPLSPNREPFCPHATWYKLP* -1.687 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24055 PLNLSLHISSDPHICIDHVP 20 SLAY-screened peptide P2405 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCAACTTGTCCCTGCATATTAGTAGTGACCCGCACATTTGCATCGATCATGTTCCTTAA PLNLSLHISSDPHICIDHVP* -1.686 0.000357 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24056 DHGVVVVSFCRYPTCPANRT 20 SLAY-screened peptide P2406 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCACGGCGTGGTTGTCGTGTCCTTCTGTAGGTATCCTACTTGCCCTGCTAATCGTACCTAA DHGVVVVSFCRYPTCPANRT* -1.686 0.003789 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24057 RHAHMQTSTSPHH 13 SLAY-screened peptide P2407 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCACGCCCATATGCAGACCTCCACTAGCCCCCATCATTAGTGTCCTTTTTATGTCGGGTAA RHAHMQTSTSPHH*CPFYVG* -1.686 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24058 GLGVIYHMPGRCALLSCGAT 20 SLAY-screened peptide P2408 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCTGGGTGTTATCTACCATATGCCTGGCCGCTGCGCGCTTCTCTCGTGCGGGGCCACTTAA GLGVIYHMPGRCALLSCGAT* -1.686 0.006992 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24059 PRITAHDAMHS 11 SLAY-screened peptide P2409 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGCATCACCGCGCACGATGCCATGCATAGCTAGCCCCCTATCATTTCTTTCGGCATTTAA PRITAHDAMHS*PPIISFGI* -1.686 0.00003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24060 HNGGLPVFDRRFGPLPRYYA 20 SLAY-screened peptide P2410 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAACGGCGGGTTGCCGGTTTTCGACCGCAGGTTCGGCCCGCTGCCGCGTTATTATGCTTAA HNGGLPVFDRRFGPLPRYYA* -1.685 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24061 LNSRRDTIHVSFYVKYIHPP 20 SLAY-screened peptide P2411 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAACAGTCGGCGTGATACCATTCATGTCAGTTTTTACGTCAAGTACATCCATCCCCCGTAA LNSRRDTIHVSFYVKYIHPP* -1.685 0.003698 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24062 PYLTP 5 SLAY-screened peptide P2412 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTACCTTACGCCGTAGCTCTTTCATCTGATCAATTTGGTGGACTATAGCACGTTCAACTAA PYLTP*LFHLINLVDYSTFN* -1.685 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24063 ERWLSITLLTLTGPPGTIRAN 21 SLAY-screened peptide P2413 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAACGATGGCTATCCATCACTCTACTGACACTGACTGGGCCTCCCGGTACTATCAGAGCTAAC ERWLSITLLTLTGPPGTIRAN -1.685 0.001618 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24064 YYLSPSLTPVR 11 SLAY-screened peptide P2414 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTACTTGAGTCCCTCGCTCACTCCGGTTCGTTAGATTTATAGGGCTATGCACTCTTATTAA YYLSPSLTPVR*IYRAMHSY* -1.685 0.005885 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24065 LLPPMYGPYSDASVLPAKTP 20 SLAY-screened peptide P2415 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTGCCCCCTATGTATGGTCCCTACTCGGACGCGAGCGTGTTGCCGGCTAAGACGCCCTAA LLPPMYGPYSDASVLPAKTP* -1.685 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24066 VLLTHAATFPESDVHVRLPN 20 SLAY-screened peptide P2416 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCTGCTTACCCACGCTGCCACGTTCCCGGAGAGCGATGTTCACGTGCGCCTGCCGAACTAA VLLTHAATFPESDVHVRLPN* -1.684 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24067 SSKHDRCSIRVVCFTDCNNY 20 SLAY-screened peptide P2417 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTCCAAGCACGATCGCTGCTCTATCCGCGTGGTCTGCTTCACGGATTGTAACAACTATTAA SSKHDRCSIRVVCFTDCNNY* -1.684 0.002402 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24068 GPWAIYKNGGDVPMVTSAPS 20 SLAY-screened peptide P2418 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCCTTGGGCCATTTATAAGAACGGCGGTGATGTCCCCATGGTGACTTCCGCTCCCTCCTAA GPWAIYKNGGDVPMVTSAPS* -1.684 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24069 RSTHYNMTLS 10 SLAY-screened peptide P2419 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCGACGCACTACAACATGACTCTGTCCTAGACGGTTTATCCCCGTAAGTCTCCCTCTTAA RSTHYNMTLS*TVYPRKSPS* -1.684 0.000837 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24070 INVHVFFLSGKKSSRRDYDS 20 SLAY-screened peptide P2420 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAACGTTCACGTTTTTTTCCTTTCTGGTAAGAAGAGCTCTAGGCGCGATTATGACTCTTAA INVHVFFLSGKKSSRRDYDS* -1.684 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24071 YAPYKYSMVRAYNNLSASKK 20 SLAY-screened peptide P2421 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCCCCTTACAAGTACTCCATGGTTCGCGCGTATAATAACTTGTCCGCCTCGAAGAAGTAA YAPYKYSMVRAYNNLSASKK* -1.683 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24072 RFSRNHRSDFRKTAPSSTQY 20 SLAY-screened peptide P2422 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTTCTCTCGTAATCATCGCTCTGATTTTCGCAAGACTGCGCCCTCCAGTACTCAGTACTAA RFSRNHRSDFRKTAPSSTQY* -1.682 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24073 HNTPFHFPAGESTYRNYPDA 20 SLAY-screened peptide P2423 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAACACCCCCTTCCACTTTCCTGCGGGCGAGAGCACCTATCGTAACTATCCTGACGCGTAA HNTPFHFPAGESTYRNYPDA* -1.682 0.017059 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24074 RTGCINVTRTASTTSSLNVK 20 SLAY-screened peptide P2424 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGACGGGGTGTATTAATGTCACCCGGACTGCGTCCACTACGAGCAGCCTGAATGTCAAGTAA RTGCINVTRTASTTSSLNVK* -1.682 0.004405 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24075 TPSLTMTLYPMRKRILSRTP 20 SLAY-screened peptide P2425 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCCCAGCCTGACCATGACGCTGTATCCCATGCGGAAGCGCATCCTCTCTCGTACGCCGTAA TPSLTMTLYPMRKRILSRTP* -1.682 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24076 TGGSVHTMLHDPNYIGCANL 20 SLAY-screened peptide P2426 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGCGGCAGTGTCCACACGATGCTCCACGATCCCAACTACATTGGCTGCGCGAACCTGTAA TGGSVHTMLHDPNYIGCANL* -1.682 0.00173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24077 CVFFALLETNPNGDHDPSSI 20 SLAY-screened peptide P2427 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTCTTCTTCGCTCTCCTCGAGACTAATCCGAATGGTGACCACGACCCGTCTTCGATCTAA CVFFALLETNPNGDHDPSSI* -1.682 0.016679 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24078 PGIPIDSCYNCYFDIRPGST 20 SLAY-screened peptide P2428 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGGGATTCCCATTGATAGCTGTTATAACTGCTATTTTGATATCCGGCCGGGTAGTACCTAA PGIPIDSCYNCYFDIRPGST* -1.682 0.000179 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24079 GRGIHRVPCTALSDPGYLVA 20 SLAY-screened peptide P2429 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCGCGGCATCCATCGCGTTCCGTGTACCGCCTTGTCCGACCCTGGCTATCTCGTCGCTTAA GRGIHRVPCTALSDPGYLVA* -1.681 0.018335 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24080 DQDYGFLHDASSFYNHNYRP 20 SLAY-screened peptide P2430 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCAGGACTACGGTTTCCTCCACGACGCTTCGTCTTTTTACAACCACAACTACAGGCCTTAA DQDYGFLHDASSFYNHNYRP* -1.681 0.000025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24081 MVHLNNILEPASNTSHMAVN 20 SLAY-screened peptide P2431 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGTGCATCTGAACAACATTCTCGAGCCGGCCTCTAACACTAGTCATATGGCCGTTAATTAA MVHLNNILEPASNTSHMAVN* -1.681 0.000022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24082 YPWSQSKPDS 10 SLAY-screened peptide P2432 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCGTGGTCGCAGTCGAAGCCGGACAGCTAGAAGAATCCGAAGTATATGCGCCTCAGTTAA YPWSQSKPDS*KNPKYMRLS* -1.681 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24083 CDWPISTPQDNNIRCQRILCN 21 SLAY-screened peptide P2433 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGACTGGCCCATTAGTACCCCTCAGGATAACAATATTCGTTGTCAAAGAATATTATGTAAC CDWPISTPQDNNIRCQRILCN -1.68 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24084 HAMPDATILPSVTDYTTSYS 20 SLAY-screened peptide P2434 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCTATGCCTGATGCTACTATTCTCCCTTCTGTGACGGATTACACTACGTCGTATAGCTAA HAMPDATILPSVTDYTTSYS* -1.68 0.026763 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24085 SILRHCSCNCLDQLIT 16 SLAY-screened peptide P2435 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGATCCTGCGCCACTGCAGCTGCAACTGTCTTGATCAGCTCATTACTTAGGACGTCACCTAA SILRHCSCNCLDQLIT*DVT* -1.68 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24086 SSCSVSTTAYLSYPPNRHIH 20 SLAY-screened peptide P2436 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAGCTGTAGTGTCAGTACGACCGCCTACCTGTCTTATCCGCCTAATAGGCATATCCATTAA SSCSVSTTAYLSYPPNRHIH* -1.68 0.001013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24087 VCVPQAPEYRVFPLYNT 17 SLAY-screened peptide P2437 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTGTGTGCCTCAGGCTCCCGAGTATCGCGTGTTTCCGCTTTATAACACTTAGCTGGCGTAA VCVPQAPEYRVFPLYNT*LA* -1.68 0.007508 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24088 LRQTPPHFYFNLCYPHWRPP 20 SLAY-screened peptide P2438 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGCCAGACGCCGCCCCACTTCTATTTCAACCTCTGCTATCCTCATTGGAGGCCGCCGTAA LRQTPPHFYFNLCYPHWRPP* -1.679 0.000164 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24089 SVTFS 5 SLAY-screened peptide P2439 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGTGACTTTCTCCTAGGTTGGCTCCCCCGCGATCCATCGCTGGTTTCTCATCTCGAGTTAA SVTFS*VGSPAIHRWFLISS* -1.679 0.000084 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24090 FPLFHNIHPTNLPVPREDFE 20 SLAY-screened peptide P2440 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCCCCTGTTTCATAACATTCATCCCACTAACCTTCCGGTGCCTCGGGAGGACTTTGAGTAA FPLFHNIHPTNLPVPREDFE* -1.679 0.000036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24091 PLSCPSHEPFICLRTLRFVR 20 SLAY-screened peptide P2441 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTGTCGTGCCCTTCGCACGAGCCCTTTATTTGCCTCCGCACGCTCCGCTTTGTTAGGTAA PLSCPSHEPFICLRTLRFVR* -1.679 0.004667 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24092 TSDSSST 7 SLAY-screened peptide P2442 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAGTGACTCTTCCTCGACCTAGCGGTTCAGTTGCATCTGTCTTGAGACTCGCCCGTCGTAA TSDSSST*RFSCICLETRPS* -1.678 0.008806 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24093 VNLT 4 SLAY-screened peptide P2443 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTAACCTTACTTAGCACCACACGCCTTTTCAGCACATTTACTATTCTTTTTCGTAGCATTAA VNLT*HHTPFQHIYYSFS*H* -1.678 0.008873 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24094 LPPIRDWRSVIVLPLHIATI 20 SLAY-screened peptide P2444 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCCCCCATCCGCGACTGGCGTTCCGTCATTGTCCTGCCTCTTCATATTGCGACGATCTAA LPPIRDWRSVIVLPLHIATI* -1.678 0.001827 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24095 PGYFPWNHRSPRLTESDTAQ 20 SLAY-screened peptide P2445 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGTTATTTTCCCTGGAACCATAGGTCGCCCCGTCTGACGGAGTCCGATACTGCTCAGTAA PGYFPWNHRSPRLTESDTAQ* -1.678 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24096 CNCCVHSPTYYPALLWAN 18 SLAY-screened peptide P2446 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAATTGCTGCGTTCATAGTCCCACCTATTATCCCGCTCTCCTTTGGGCGAACTAGACCTAA CNCCVHSPTYYPALLWAN*T* -1.678 0.02565 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24097 NNQDATYGSVRWLPVDSASL 20 SLAY-screened peptide P2447 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAACCAGGATGCCACTTATGGCAGTGTTCGCTGGCTTCCTGTTGACTCGGCCTCGCTTTAA NNQDATYGSVRWLPVDSASL* -1.677 0.001445 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24098 VDLRVAQSKPLYRSSLMLHR 20 SLAY-screened peptide P2448 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGGATTTGCGCGTGGCTCAGTCTAAGCCGCTGTACAGGTCTTCGCTTATGTTGCATAGGTAA VDLRVAQSKPLYRSSLMLHR* -1.677 0.022009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24099 SAGLSFRIVSFFHFRVRLRFN 21 SLAY-screened peptide P2449 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCTGGTCTGTCCTTTAGGATCGTTAGCTTTTTCCATTTTAGGGTTAGGCTAAGGTTTAAC SAGLSFRIVSFFHFRVRLRFN -1.676 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24100 AALKCLLSLPVYPQRAADSF 20 SLAY-screened peptide P2450 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGCCCTTAAGTGTCTCCTTAGTCTGCCGGTCTATCCGCAGAGGGCCGCTGACTCCTTCTAA AALKCLLSLPVYPQRAADSF* -1.676 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24101 RMCRKFKTWTHLHLRGRRTR 20 SLAY-screened peptide P2451 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATGTGCCGTAAGTTTAAGACCTGGACGCATCTGCATCTCAGGGGCCGCCGGACCCGTTAA RMCRKFKTWTHLHLRGRRTR* -1.676 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24102 PSWT 4 SLAY-screened peptide P2452 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCGTGGACCTAGCGCCCCCGGTATTCTTGTACTAACCTGTTCTACTATCCCTGCTTTTAA PSWT*RPRYSCTNLFYYPCF* -1.676 0.00078 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24103 LLCMLCGPTPFHHCPASSLH 20 SLAY-screened peptide P2453 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTGTGTATGCTGTGCGGCCCTACTCCTTTTCATCATTGCCCTGCCAGTTCGCTGCATTAA LLCMLCGPTPFHHCPASSLH* -1.675 0.00003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24104 FSSHTPAPCMPPPNWRFAWV 20 SLAY-screened peptide P2454 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTAGTTCTCATACGCCGGCGCCCTGTATGCCCCCTCCGAACTGGAGGTTCGCGTGGGTGTAA FSSHTPAPCMPPPNWRFAWV* -1.674 0.001981 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24105 GPVSDSSGPFSHCIILAAPV 20 SLAY-screened peptide P2455 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCCGGTCTCTGACAGTAGTGGGCCGTTCAGCCATTGCATCATCCTGGCTGCTCCTGTTTAA GPVSDSSGPFSHCIILAAPV* -1.674 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24106 LSPLPRHNISQTLRPPFLV 19 SLAY-screened peptide P2456 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCCCCTTTGCCTCGGCATAATATCTCTCAGACGCTGCGCCCCCCCTTCCTGGTCTAGTAA LSPLPRHNISQTLRPPFLV** -1.674 0.006374 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24107 PVFIYSLKPMVPKKPNTRVL 20 SLAY-screened peptide P2457 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTGTTTATCTACTCCCTCAAGCCTATGGTCCCGAAGAAGCCTAACACGCGTGTTTTGTAA PVFIYSLKPMVPKKPNTRVL* -1.673 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24108 RCACNRRRYHPRNPDDYLPM 20 SLAY-screened peptide P2458 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGCGCCTGTAACCGCCGGCGCTATCATCCTAGGAATCCTGATGACTACCTGCCCATGTAA RCACNRRRYHPRNPDDYLPM* -1.673 0.000544 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24109 PLEVLPCFRWPNFLPYILAA 20 SLAY-screened peptide P2459 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCGAGGTGCTGCCCTGCTTTAGGTGGCCTAACTTTCTCCCTTACATTCTGGCTGCGTAA PLEVLPCFRWPNFLPYILAA* -1.673 0.025664 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24110 TAAFGPFLACPLGINSYTFT 20 SLAY-screened peptide P2460 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCTGCTTTCGGGCCCTTTTTGGCCTGTCCGCTTGGCATTAACAGCTATACGTTCACGTAA TAAFGPFLACPLGINSYTFT* -1.673 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24111 VNRYARFYHSTVYIRIPCMI 20 SLAY-screened peptide P2461 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCAATCGGTACGCCCGTTTCTATCATTCCACTGTGTACATTCGCATTCCCTGTATGATCTAA VNRYARFYHSTVYIRIPCMI* -1.673 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24112 CVPDKSVLTLIGYTHD 16 SLAY-screened peptide P2462 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTGCCGGATAAGTCCGTTCTCACGCTCATCGGTTATACGCATGACTAGCCCTCCACCTAA CVPDKSVLTLIGYTHD*PST* -1.673 0.003049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24113 TPHYFRNQPLFHQTHITYLA 20 SLAY-screened peptide P2463 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCGCATTATTTTCGTAATCAGCCCTTGTTCCATCAGACCCATATCACTTATCTTGCGTAA TPHYFRNQPLFHQTHITYLA* -1.673 0.008353 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24114 IVNGLFVQTPTTLPILHTAS 20 SLAY-screened peptide P2464 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGTTAACGGGCTGTTTGTTCAGACTCCGACCACTCTCCCCATTTTGCACACTGCTAGCTAA IVNGLFVQTPTTLPILHTAS* -1.673 0.000102 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24115 THLRAPPCMGDFIWFVLFSF 20 SLAY-screened peptide P2465 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCACCTCCGTGCGCCCCCCTGCATGGGGGATTTCATTTGGTTTGTTCTCTTTTCCTTCTAA THLRAPPCMGDFIWFVLFSF* -1.673 0.013461 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24116 TANQPIAFFPRLMLTSRLVPN 21 SLAY-screened peptide P2466 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCCAACCAGCCTATCGCCTTCTTTCCCCGTCTTATGCTCACAAGTCGACTCGTTCCTAAC TANQPIAFFPRLMLTSRLVPN -1.672 0.001371 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24117 ASYRPSCSSVLYDLKPAQGG 20 SLAY-screened peptide P2467 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTCTTATCGCCCGTCGTGTTCTAGCGTCTTGTACGACCTCAAGCCCGCCCAGGGTGGTTAA ASYRPSCSSVLYDLKPAQGG* -1.672 0.023835 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24118 THSPLVSFIMPPPLTPLCLV 20 SLAY-screened peptide P2468 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCATTCCCCGCTGGTCTCCTTCATCATGCCGCCGCCGCTTACTCCCCTCTGTTTGGTCTAA THSPLVSFIMPPPLTPLCLV* -1.672 0.000649 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24119 SMPPSRINYVGLHLDKRMLA 20 SLAY-screened peptide P2469 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCATGCCGCCTTCGCGTATCAACTACGTCGGCTTGCACCTTGACAAGCGGATGCTCGCGTAA SMPPSRINYVGLHLDKRMLA* -1.671 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24120 NKNISSLLQHR 11 SLAY-screened peptide P2470 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAAGAATATTTCTTCCCTCTTGCAGCATCGGTAGGGTCCTTCCAGCGATGCTCGGCCTTAA NKNISSLLQHR*GPSSDARP* -1.671 0.014222 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24121 GLLSPWSVRFNYHDPDADHL 20 SLAY-screened peptide P2471 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCTGCTCTCTCCGTGGTCTGTGCGCTTCAATTACCATGACCCGGACGCTGATCACTTGTAA GLLSPWSVRFNYHDPDADHL* -1.671 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24122 SMNLNCPMVSCSHRDCLVVI 20 SLAY-screened peptide P2472 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTATGAACCTTAACTGCCCGATGGTTTCCTGTTCTCACCGTGACTGCCTCGTGGTTATTTAA SMNLNCPMVSCSHRDCLVVI* -1.67 0.000474 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24123 LIAARLFDCPLRQDSHCTWI 20 SLAY-screened peptide P2473 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATCGCGGCGCGCCTCTTTGACTGTCCTCTTCGCCAGGATTCGCATTGTACCTGGATTTAA LIAARLFDCPLRQDSHCTWI* -1.67 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24124 VLVIASSYYF 10 SLAY-screened peptide P2474 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCTCGTTATTGCCAGCTCCTATTACTTCTAGCATCTGCATATCTATCTTGACCCGTCTTAA VLVIASSYYF*HLHIYLDPS* -1.67 0.000015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24125 RDRLQIIPTYGLSTVPLRGI 20 SLAY-screened peptide P2475 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGACCGGCTCCAGATCATCCCTACTTACGGCCTCAGTACCGTTCCCCTCCGTGGCATTTAA RDRLQIIPTYGLSTVPLRGI* -1.669 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24126 IQMGIHRLTITNNYFTTFLY 20 SLAY-screened peptide P2476 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCAGATGGGTATTCACCGTTTGACGATTACCAATAACTATTTTACTACGTTTTTGTATTAA IQMGIHRLTITNNYFTTFLY* -1.668 0.002182 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24127 LENAAYTDYLDLPEHPCNST 20 SLAY-screened peptide P2477 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGAGAACGCCGCCTATACCGACTACCTTGATCTTCCCGAGCATCCCTGTAATAGCACCTAA LENAAYTDYLDLPEHPCNST* -1.668 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24128 YFRVPPTHLMLTPLVLYTLA 20 SLAY-screened peptide P2478 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTTCCGGGTCCCTCCCACCCACCTGATGCTGACTCCCTTGGTCCTCTACACTCTGGCGTAA YFRVPPTHLMLTPLVLYTLA* -1.668 0.021252 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24129 RSHSARLPALILPAPASLVIN 21 SLAY-screened peptide P2479 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCGCACTCCGCGAGGCTCCCTGCTCTGATCTTACCCGCGCCTGCCTCCTTGGTGATTAAC RSHSARLPALILPAPASLVIN -1.668 0.004286 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24130 PTNSVHAYGIF 11 SLAY-screened peptide P2480 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACTAACTCGGTTCATGCGTATGGCATTTTCTAGGGCGTGATGCACCTGGTGACTGTCTAA PTNSVHAYGIF*GVMHLVTV* -1.668 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24131 RFTLNCFLGTRIRRKIGCSR 20 SLAY-screened peptide P2481 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTCACTTTGAACTGTTTTCTCGGCACTCGCATCCGTCGCAAGATTGGGTGTAGCCGCTAA RFTLNCFLGTRIRRKIGCSR* -1.667 0.002099 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24132 LCGGSGPDCSDQSDNLANTI 20 SLAY-screened peptide P2482 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTGCGGTGGCAGCGGTCCGGATTGCAGTGATCAGAGCGATAACCTGGCTAACACGATTTAA LCGGSGPDCSDQSDNLANTI* -1.667 0.000419 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24133 CWYIDRPALSRFRPVRTLLA 20 SLAY-screened peptide P2483 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTGGTATATCGATCGTCCGGCTCTCTCGCGCTTCCGGCCGGTTAGGACCCTGCTTGCTTAA CWYIDRPALSRFRPVRTLLA* -1.666 0.014851 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24134 SSPAAPRGRSPQSSRVG 17 SLAY-screened peptide P2484 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAGTCCGGCTGCGCCGCGCGGTCGCTCCCCTCAGAGTAGCCGCGTTGGTTAGAATGCGTAA SSPAAPRGRSPQSSRVG*NA* -1.666 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24135 CTTTALANFTLSRPKFDKIS 20 SLAY-screened peptide P2485 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCACCACTACCGCCCTCGCGAATTTTACTTTGAGTAGGCCTAAGTTTGATAAGATCTCTTAA CTTTALANFTLSRPKFDKIS* -1.666 0.002975 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24136 CFHYDYCCSCQSHPHWLLFA 20 SLAY-screened peptide P2486 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTTCCACTACGATTACTGCTGCTCTTGTCAGTCCCACCCCCACTGGCTCCTCTTTGCTTAA CFHYDYCCSCQSHPHWLLFA* -1.666 0.000157 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24137 LPKTSLRFRANAGPTPHPST 20 SLAY-screened peptide P2487 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCCAAGACCAGCCTCCGCTTTCGGGCCAATGCTGGTCCCACTCCCCACCCGTCGACCTAA LPKTSLRFRANAGPTPHPST* -1.666 0.017517 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24138 LSYVSPGAGYSPASDTPTRA 20 SLAY-screened peptide P2488 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCCTACGTCTCTCCCGGGGCTGGGTACTCCCCGGCTAGCGACACGCCTACCCGGGCTTAA LSYVSPGAGYSPASDTPTRA* -1.666 0.003337 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24139 SLAIILLSYPDFSMHSILAF 20 SLAY-screened peptide P2489 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTTGGCCATCATCCTGTTGTCCTATCCGGACTTCTCCATGCATTCCATTCTTGCCTTTTAA SLAIILLSYPDFSMHSILAF* -1.665 0.000019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24140 PSSRR 5 SLAY-screened peptide P2490 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCTCGCGGCGGTAGACTATGTAGATCAACCACACCTTGAACTGTAATCGCACTCATTAA PSSRR*TM*INHTLNCNRTH* -1.665 0.046519 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24141 AAVTAIRQLFNCLIMTARCS 20 SLAY-screened peptide P2491 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGCCGTCACCGCCATCAGGCAGCTTTTCAATTGTCTTATTATGACCGCCCGCTGTTCCTAA AAVTAIRQLFNCLIMTARCS* -1.665 0.004576 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24142 SQTRPKHSLVMPFSYTLTMP 20 SLAY-screened peptide P2492 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCAGACTCGTCCGAAGCATAGTCTCGTTATGCCGTTTAGTTATACGTTGACCATGCCGTAA SQTRPKHSLVMPFSYTLTMP* -1.665 0.000224 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24143 CIKCYSVYCLLFNYRHTGVT 20 SLAY-screened peptide P2493 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTATCAAGTGTTATTCTGTGTATTGCCTGCTGTTCAATTACCGTCATACCGGTGTCACGTAA CIKCYSVYCLLFNYRHTGVT* -1.665 0.014298 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24144 LANPCNIYNHAPMYQSLRYA 20 SLAY-screened peptide P2494 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGCCAATCCTTGCAACATCTACAATCATGCGCCCATGTATCAGAGTCTTCGTTACGCCTAA LANPCNIYNHAPMYQSLRYA* -1.665 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24145 VVSVRVVREYTLADGFIMSC 20 SLAY-screened peptide P2495 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGGTTAGCGTCCGTGTGGTCCGTGAGTATACCCTTGCTGATGGTTTTATCATGTCCTGTTAA VVSVRVVREYTLADGFIMSC* -1.665 0.000188 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24146 HRHLCSQERHTRSARVDRMS 20 SLAY-screened peptide P2496 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCGGCACCTGTGCTCCCAGGAGCGTCATACTCGCTCCGCGCGCGTCGACCGCATGTCCTAA HRHLCSQERHTRSARVDRMS* -1.665 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24147 MVHSSDSTWFSFPGELHDSP 20 SLAY-screened peptide P2497 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGTGCACTCTTCTGACTCCACTTGGTTTTCGTTCCCCGGTGAGTTGCATGATAGCCCGTAA MVHSSDSTWFSFPGELHDSP* -1.664 0.000074 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24148 SPAPLLCRVRPRSRRTTASSN 21 SLAY-screened peptide P2498 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCCTGCCCCCTTACTGTGCAGGGTCCGACCTAGAAGCAGACGGACAACAGCGTCTTCTAAC SPAPLLCRVRPRSRRTTASSN -1.664 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24149 PYHRPFSPPNYDQSNGHSGT 20 SLAY-screened peptide P2499 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTACCACCGTCCGTTTTCTCCCCCTAATTATGATCAGAGCAATGGTCACTCTGGGACCTAA PYHRPFSPPNYDQSNGHSGT* -1.664 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24150 PLRRIASKLLHSFICPCW 18 SLAY-screened peptide P2500 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCCGGCGCATCGCTTCTAAGCTCCTGCACTCTTTTATCTGCCCCTGTTGGTAGCCCTAA PLRRIASKLLHSFICPCW*P* -1.664 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24151 PRYPYRVSTLLPSDSRLGRS 20 SLAY-screened peptide P2501 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGCTACCCTTATCGCGTGTCGACCCTGCTCCCGTCTGACTCGCGGCTTGGGAGGTCGTAA PRYPYRVSTLLPSDSRLGRS* -1.664 0.000073 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24152 LPGLTTHCVYDGPTSDTSRA 20 SLAY-screened peptide P2502 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCGGGCCTCACTACTCATTGTGTCTATGACGGTCCCACGAGTGACACCTCTAGGGCTTAA LPGLTTHCVYDGPTSDTSRA* -1.664 0.000149 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24153 HCGMPDWSDYSFRYI 15 SLAY-screened peptide P2503 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGTGGCATGCCCGATTGGTCGGATTACTCTTTTCGCTATATCTAGTTCCAGACTCCGTAA HCGMPDWSDYSFRYI*FQTP* -1.664 0.024309 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24154 HRHMQAVPTPQVPARRTRGF 20 SLAY-screened peptide P2504 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGCCACATGCAGGCTGTTCCCACGCCCCAGGTCCCTGCTCGTCGGACTCGCGGCTTCTAA HRHMQAVPTPQVPARRTRGF* -1.663 0.023872 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24155 PQA 3 SLAY-screened peptide P2505 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCAAGCATAAGACCAACTGTCGTAAGTACGGGTCGAAGAATATGCATAATCTCAACTAACT PQA*DQLS*VRVEEYA*SQLT -1.663 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24156 PDSGLVPFTHFGTAFYIHHA 20 SLAY-screened peptide P2506 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGATTCGGGCCTTGTCCCTTTCACCCATTTTGGCACGGCTTTTTATATCCACCACGCCTAA PDSGLVPFTHFGTAFYIHHA* -1.663 0.000022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24157 TNALY 5 SLAY-screened peptide P2507 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGAATGCCCTGTACTAGCGGCGCTTTCCCCTGTGGCTTTGGCCCGGTTGCGCCATCCACTAA TNALY*RRFPLWLWPGCAIH* -1.663 0.000039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24158 PTPIANRTDTPYLFTVYYYT 20 SLAY-screened peptide P2508 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACCCCTATTGCTAATAGGACGGATACCCCCTATTTGTTTACCGTTTATTATTACACGTAA PTPIANRTDTPYLFTVYYYT* -1.663 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24159 APAIFADYHPVCLFYARNTM 20 SLAY-screened peptide P2509 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCCGCTATCTTTGCTGATTATCACCCCGTTTGCCTGTTCTATGCTCGGAACACTATGTAA APAIFADYHPVCLFYARNTM* -1.662 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24160 STPAHPRASDFYYTASFYRN 20 SLAY-screened peptide P2510 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTACCCCCGCTCACCCTAGGGCGTCGGATTTTTACTACACTGCTTCGTTCTACCGTAACTAA STPAHPRASDFYYTASFYRN* -1.662 0.00536 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24161 NIDTWPSHFRLHTRFGRATP 20 SLAY-screened peptide P2511 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACATCGATACGTGGCCCTCCCATTTCCGCTTGCATACTCGCTTTGGCCGCGCTACTCCCTAA NIDTWPSHFRLHTRFGRATP* -1.662 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24162 AKLILNVGILLRRRTSSLSFN 21 SLAY-screened peptide P2512 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAAGCTCATTTTGAACGTGGGCATATTACTGAGACGCCGAACTTCCTCGTTAAGCTTTAAC AKLILNVGILLRRRTSSLSFN -1.662 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24163 CWHPKTKKGRYLVNHMPVVF 20 SLAY-screened peptide P2513 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTGGCACCCCAAGACTAAGAAGGGGCGCTACCTTGTCAACCACATGCCCGTTGTTTTCTAA CWHPKTKKGRYLVNHMPVVF* -1.661 0.000397 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24164 RPGSACPSSG 10 SLAY-screened peptide P2514 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCCGGCTCGGCCTGCCCGTCGAGCGGTTAGATCATCTTGCCTTTTTCCCAGTCTAGCTAA RPGSACPSSG*IILPFSQSS* -1.661 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24165 LFTAYSPRVITMVHTSRVIT 20 SLAY-screened peptide P2515 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTTCACCGCGTACAGCCCCAGGGTTATTACTATGGTCCACACGAGCCGCGTGATCACGTAA LFTAYSPRVITMVHTSRVIT* -1.661 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24166 CHRLSRNDASHCFPSARVPGN 21 SLAY-screened peptide P2516 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCACCGTCTGTCTCGCAATGACGCCTCGCACTGTTTTCCTTCAGCACGTGTCCCCGGTAAC CHRLSRNDASHCFPSARVPGN -1.66 0.001742 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24167 RCFTDDTDLLSPSMIVYYSI 20 SLAY-screened peptide P2517 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTGCTTCACTGACGATACTGATCTTCTCAGCCCTAGTATGATTGTCTATTACAGTATTTAA RCFTDDTDLLSPSMIVYYSI* -1.66 0.000653 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24168 GFLSTPPLRERRLFCIPRPS 20 SLAY-screened peptide P2518 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTTCCTTTCCACCCCGCCCCTTCGCGAGCGTAGGCTGTTTTGTATCCCGCGTCCCTCGTAA GFLSTPPLRERRLFCIPRPS* -1.659 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24169 SIDHSYLFWYI 11 SLAY-screened peptide P2519 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGATTGACCATAGTTACCTCTTCTGGTATATCTAGCCTACTGCTCATGTTAACATGAGGTAA SIDHSYLFWYI*PTAHVNMR* -1.659 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24170 IVAYYVYTYFPGRSLNNIPP 20 SLAY-screened peptide P2520 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGTGGCTTACTATGTTTACACCTACTTTCCGGGGCGTTCGCTGAATAACATCCCGCCTTAA IVAYYVYTYFPGRSLNNIPP* -1.658 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24171 SRPPSNTIAITFHNNRTFFF 20 SLAY-screened peptide P2521 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCAGGCCCCCTTCCAACACGATCGCGATTACGTTCCATAACAACCGTACTTTCTTTTTTTAA SRPPSNTIAITFHNNRTFFF* -1.658 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24172 DFLPCHLFHRPHNSNGEYVG 20 SLAY-screened peptide P2522 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTTCTTGCCCTGCCATCTTTTCCACCGTCCCCATAATTCTAACGGTGAGTATGTTGGCTAA DFLPCHLFHRPHNSNGEYVG* -1.658 0.001482 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24173 LSQSASPCYC 10 SLAY-screened peptide P2523 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCCCAGAGTGCTTCTCCTTGCTATTGTTAGAGGTACGCGCTCGATGATGGTGACTCCTAA LSQSASPCYC*RYALDDGDS* -1.658 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24174 RMSQLRALL 9 SLAY-screened peptide P2524 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATGAGCCAGCTCCGTGCCCTTCTCTAGTCTTGTTCCACTAAGGCGGAGCGTTGCGTCTAA RMSQLRALL*SCSTKAERCV* -1.658 0.000249 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24175 YARMNITLVGMCQVFYFIIR 20 SLAY-screened peptide P2525 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCGAGGATGAACATTACCCTCGTTGGTATGTGTCAGGTCTTTTATTTCATTATCCGCTAA YARMNITLVGMCQVFYFIIR* -1.657 0.001025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24176 IPYQHLFDVINRFLHIRKMN 20 SLAY-screened peptide P2526 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCCCTATCAGCATTTGTTTGACGTCATTAACCGTTTCCTTCACATTCGCAAGATGAACTAA IPYQHLFDVINRFLHIRKMN* -1.657 0.0005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24177 PTDKTSARSNDSCLHVANRV 20 SLAY-screened peptide P2527 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCGATAAGACCAGCGCTCGTAGCAACGATAGCTGTTTGCATGTTGCCAACAGGGTGTAA PTDKTSARSNDSCLHVANRV* -1.657 0.006651 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24178 TLFDWYMGCYPLAQRDIIYL 20 SLAY-screened peptide P2528 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTGTTCGACTGGTACATGGGTTGTTATCCCCTGGCTCAGCGCGATATTATCTACTTGTAA TLFDWYMGCYPLAQRDIIYL* -1.656 0.015514 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24179 QSYSNNFHLIHRTDLPFTCT 20 SLAY-screened peptide P2529 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAGTTACTCCAACAACTTTCATCTTATCCATCGGACCGATCTTCCTTTTACTTGCACGTAA QSYSNNFHLIHRTDLPFTCT* -1.656 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24180 PLMYCHPYGYPYRAFIFDTL 20 SLAY-screened peptide P2530 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGATGTACTGCCACCCGTATGGGTATCCGTATCGCGCCTTCATCTTCGACACTTTGTAA PLMYCHPYGYPYRAFIFDTL* -1.656 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24181 HWIGYALTLEALHCLFYSHP 20 SLAY-screened peptide P2531 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGGATCGGGTACGCCCTTACGCTTGAGGCTCTTCACTGCCTCTTTTATTCTCATCCTTAA HWIGYALTLEALHCLFYSHP* -1.656 0.044457 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24182 PLPCWLV 7 SLAY-screened peptide P2532 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGCCCTGCTGGCTTGTCTAGGCGGCCTCGCTGTCCAGGATGTGTGCTTTCCGCAGGTAA PLPCWLV*AASLSRMCAFRR* -1.655 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24183 GCSPTPLGIFFPSLVVRQIR 20 SLAY-screened peptide P2533 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGTGCAGCCCTACGCCTCTTGGTATTTTCTTCCCCAGTCTCGTTGTCCGCCAGATCCGCTAA GCSPTPLGIFFPSLVVRQIR* -1.655 0.012436 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24184 RFFLFFIRRRTTFKAWSINS 20 SLAY-screened peptide P2534 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTTCTTCTTGTTCTTTATTCGCCGGAGGACGACCTTTAAGGCGTGGAGCATCAACAGCTAA RFFLFFIRRRTTFKAWSINS* -1.655 0.000421 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24185 RLAGHATFHVTLLVYLSTRN 20 SLAY-screened peptide P2535 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCTTGCTGGCCATGCCACCTTCCACGTGACTCTCCTGGTCTATCTCTCCACTAGGAACTAA RLAGHATFHVTLLVYLSTRN* -1.655 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24186 SGACWDKTDTYQLG 14 SLAY-screened peptide P2536 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGGCGCCTGCTGGGATAAGACGGACACCTATCAGCTTGGTTAGTTCTCTATCGGGTCTTAA SGACWDKTDTYQLG*FSIGS* -1.654 0.000967 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24187 SAIANASVVSSIACAIGHIT 20 SLAY-screened peptide P2537 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGCTATCGCTAATGCTTCCGTGGTGTCGTCCATTGCCTGCGCTATTGGGCACATTACGTAA SAIANASVVSSIACAIGHIT* -1.654 0.031658 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24188 FLRPLVRSLLRRLLVMGWRRN 21 SLAY-screened peptide P2538 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTTGCGTCCGTTGGTTCGCTCCCTCCTCCGGAGGTTATTAGTTATGGGATGGCGCCGTAAC FLRPLVRSLLRRLLVMGWRRN -1.654 0.008316 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24189 PSVSNFPHRCD 11 SLAY-screened peptide P2539 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCTGTGTCTAACTTCCCGCACCGCTGCGATTAGCGTGCCTTGCGTTGTAGGACGGACTAA PSVSNFPHRCD*RALRCRTD* -1.654 0.000943 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24190 PRNDGSGYITPKIRTLFENQ 20 SLAY-screened peptide P2540 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGGAATGATGGCTCCGGTTATATCACTCCGAAGATTCGGACCCTTTTTGAGAACCAGTAA PRNDGSGYITPKIRTLFENQ* -1.654 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24191 PSRHVDRPGNNLGNVNSATD 20 SLAY-screened peptide P2541 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAGCAGGCATGTGGACAGGCCGGGCAACAATTTGGGCAATGTTAATAGCGCTACGGACTAA PSRHVDRPGNNLGNVNSATD* -1.653 0.026102 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24192 FLVESDTAAAYNPETCDPNV 20 SLAY-screened peptide P2542 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCTGGTGGAGTCTGATACCGCCGCCGCCTACAACCCCGAGACTTGCGACCCGAATGTTTAA FLVESDTAAAYNPETCDPNV* -1.653 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24193 PRTMSYNSACTCSELNCLDP 20 SLAY-screened peptide P2543 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGGACCATGAGTTATAACTCCGCCTGCACGTGTTCCGAGCTGAACTGTCTGGATCCCTAA PRTMSYNSACTCSELNCLDP* -1.653 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24194 NPHGPIRTNNDRHVTREPTY 20 SLAY-screened peptide P2544 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCCCCACGGCCCTATTCGCACGAACAACGATCGTCATGTCACCCGGGAGCCTACCTACTAA NPHGPIRTNNDRHVTREPTY* -1.653 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24195 SPQGL 5 SLAY-screened peptide P2545 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCCCAGGGCCTTTAGCACCACCATTAGCGTATGGACAACCAGCTCGCCTTTAGTCAGTAA SPQGL*HHH*RMDNQLAFSQ* -1.652 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24196 RLSFNPPYPGLRAHLPGTFL 20 SLAY-screened peptide P2546 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCTGTCGTTTAACCCGCCCTATCCGGGCCTCCGCGCGCACCTCCCGGGCACTTTCCTCTAA RLSFNPPYPGLRAHLPGTFL* -1.652 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24197 TFNSVPAHGQVRNFYHHFIR 20 SLAY-screened peptide P2547 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTTTAACAGTGTGCCGGCTCATGGGCAGGTCCGTAACTTCTACCATCATTTTATCCGTTAA TFNSVPAHGQVRNFYHHFIR* -1.651 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24198 HCSPPVTWLWGSSIPHAYLL 20 SLAY-screened peptide P2548 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTGTTCCCCTCCCGTGACGTGGCTCTGGGGTAGCTCTATCCCTCACGCTTACCTCTTGTAA HCSPPVTWLWGSSIPHAYLL* -1.651 0.000104 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24199 CPIMFLQRSPVTMSLNPDSL 20 SLAY-screened peptide P2549 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCCATCATGTTCCTCCAGCGTAGCCCCGTTACCATGAGTCTTAACCCTGATTCCTTGTAA CPIMFLQRSPVTMSLNPDSL* -1.65 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24200 TTSLDTGMLHPRNTQTSNSD 20 SLAY-screened peptide P2550 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACTTCCCTTGACACTGGCATGCTGCATCCTCGTAATACTCAGACGTCGAATTCTGATTAA TTSLDTGMLHPRNTQTSNSD* -1.65 0.0311 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24201 PPSTDLTQCHQPLPWRYLRM 20 SLAY-screened peptide P2551 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTAGTACGGACCTGACCCAGTGCCATCAGCCCCTCCCCTGGCGTTACCTGCGCATGTAA PPSTDLTQCHQPLPWRYLRM* -1.65 0.000707 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24202 LGGSRDMPFIHPSAADTCGH 20 SLAY-screened peptide P2552 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGGCGGTTCTCGCGACATGCCGTTTATTCATCCCTCGGCGGCGGATACTTGCGGTCATTAA LGGSRDMPFIHPSAADTCGH* -1.65 0.025147 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24203 GRSTGHLPWTIWKLFLCVAH 20 SLAY-screened peptide P2553 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCGTTCTACTGGGCATCTTCCTTGGACTATCTGGAAGCTGTTTCTGTGTGTGGCCCACTAA GRSTGHLPWTIWKLFLCVAH* -1.65 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24204 THPPAH 6 SLAY-screened peptide P2554 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCACCCCCCCGCCCACTAGCCGCTTTCCAGTCAGGTTTTTTACCACACGGACTACTAGTAA THPPAH*PLSSQVFYHTDY** -1.65 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24205 LLPSPCRSV 9 SLAY-screened peptide P2555 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTGCCCTCGCCTTGCAGGAGCGTCTAGTAGTTGCCCTTGGCCTTCAAGAATGTGCTCTAA LLPSPCRSV**LPLAFKNVL* -1.649 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24206 YYNRFGGRCSSL 12 SLAY-screened peptide P2556 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTACAACCGTTTCGGAGGTCGATGTTCGTCGTTATAAGATGTTGAATAATTCGAATAACTA YYNRFGGRCSSL*DVE*FE*L -1.648 0.003453 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24207 PRASNYALALDDFTPLPLTA 20 SLAY-screened peptide P2557 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAGGGCTAGTAATTACGCGCTTGCTCTGGATGACTTTACGCCTCTTCCGTTGACCGCTTAA PRASNYALALDDFTPLPLTA* -1.648 0.000359 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24208 RCHRYAANGQSHGLNESIHP 20 SLAY-screened peptide P2558 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTGCCACCGCTACGCGGCTAATGGGCAGTCTCATGGGTTGAATGAGTCTATCCACCCGTAA RCHRYAANGQSHGLNESIHP* -1.648 0.000146 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24209 HTRVNSHYSSCPSLGPRLRSN 21 SLAY-screened peptide P2559 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACGCGTGTCAATAGTCACTACAGTTCCTGCCCAAGTCTTGGGCCCCGTCTTCGATCTAAC HTRVNSHYSSCPSLGPRLRSN -1.648 0.001817 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24210 HTIDALPYDLFRSSPTCFQY 20 SLAY-screened peptide P2560 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACCATTGATGCGCTGCCGTACGACCTGTTTCGCTCGTCGCCCACGTGCTTTCAGTACTAA HTIDALPYDLFRSSPTCFQY* -1.648 0.006516 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24211 RPYHCISILSMILVPRPMVT 20 SLAY-screened peptide P2561 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCCTACCATTGTATTTCTATTCTCTCCATGATCTTGGTTCCGCGGCCTATGGTGACTTAA RPYHCISILSMILVPRPMVT* -1.648 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24212 RYPFDTTHILPNPSADSYKC 20 SLAY-screened peptide P2562 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTATCCGTTCGATACCACCCACATCTTGCCCAACCCGTCTGCTGATTCTTATAAGTGCTAA RYPFDTTHILPNPSADSYKC* -1.647 0.002015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24213 CHFHPHHYRVITSVPL 16 SLAY-screened peptide P2563 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCACTTCCATCCGCATCACTACCGGGTGATCACGTCGGTGCCTCTCTAGTTCGGTGATTAA CHFHPHHYRVITSVPL*FGD* -1.647 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24214 NLYHCPAHPLYITAAGNAIS 20 SLAY-screened peptide P2564 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTTGTACCATTGCCCGGCTCATCCTCTGTATATTACGGCTGCGGGTAATGCTATTTCCTAA NLYHCPAHPLYITAAGNAIS* -1.647 0.02038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24215 TNVRYACYRLFGGIRICYCP 20 SLAY-screened peptide P2565 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAACGTGCGCTATGCCTGTTATCGGTTGTTCGGGGGTATCCGCATCTGTTATTGTCCCTAA TNVRYACYRLFGGIRICYCP* -1.647 0.008385 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24216 HPDHGLSALFHTGMYAASL 19 SLAY-screened peptide P2566 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGGACCACGGTCTCTCTGCCCTTTTCCACACCGGTATGTATGCTGCTTCCTTGTAGTAA HPDHGLSALFHTGMYAASL** -1.647 0.026016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24217 NETWPSPHGCRTVVAPMRIA 20 SLAY-screened peptide P2567 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGAGACGTGGCCCTCTCCCCATGGTTGCCGGACCGTGGTCGCCCCGATGCGGATCGCTTAA NETWPSPHGCRTVVAPMRIA* -1.647 0.001213 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24218 PTVRNANSFCLRKIILSRDW 20 SLAY-screened peptide P2568 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACTGTTCGTAATGCCAATAGTTTTTGTTTGCGCAAGATCATTCTCAGTCGTGATTGGTAA PTVRNANSFCLRKIILSRDW* -1.646 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24219 RSMRRRYVHLTRRALHNNAC 20 SLAY-screened peptide P2569 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTCTATGCGCCGCCGCTACGTCCATCTTACTCGTCGGGCGCTTCATAACAATGCTTGCTAA RSMRRRYVHLTRRALHNNAC* -1.646 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24220 VSAGITRLLHLCDYFTTMCF 20 SLAY-screened peptide P2570 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGAGCGCTGGGATCACCAGGCTGCTCCATCTTTGTGACTACTTCACGACTATGTGCTTCTAA VSAGITRLLHLCDYFTTMCF* -1.645 0.01066 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24221 RAAEYLFALSLDPLLFYSYQ 20 SLAY-screened peptide P2571 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGCTGCCGAGTATCTCTTTGCCCTGTCCCTCGATCCTCTTCTCTTCTACAGTTATCAGTAA RAAEYLFALSLDPLLFYSYQ* -1.645 0.011149 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24222 LPVYCWYTLITPICSCDEYV 20 SLAY-screened peptide P2572 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCCGTCTACTGTTGGTACACCCTCATTACGCCTATCTGTAGCTGCGATGAGTACGTTTAA LPVYCWYTLITPICSCDEYV* -1.644 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24223 PHRACPSGSSPFPLLPFFFLN 21 SLAY-screened peptide P2573 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCATCGGGCCTGCCCCTCGGGATCGTCGCCGTTCCCACTGCTACCCTTTTTCTTTCTTAAC PHRACPSGSSPFPLLPFFFLN -1.644 0.005076 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24224 HCTSYQHNTPSMISNYYDIM 20 SLAY-screened peptide P2574 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGCACCAGTTATCAGCACAATACGCCCTCCATGATCTCGAATTACTATGATATCATGTAA HCTSYQHNTPSMISNYYDIM* -1.644 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24225 NYDALRLFDLRNYQFTNNAS 20 SLAY-screened peptide P2575 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTATGATGCTCTCCGCCTGTTCGATCTTCGCAACTATCAGTTCACTAATAATGCCTCGTAA NYDALRLFDLRNYQFTNNAS* -1.643 0.005656 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24226 SNSRENHPTVHLCSVSNVLY 20 SLAY-screened peptide P2576 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTAACTCTAGGGAGAATCACCCGACGGTGCATTTGTGCTCTGTTAGCAACGTGCTGTATTAA SNSRENHPTVHLCSVSNVLY* -1.643 0.004283 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24227 INLMVMYTTASSLSHYWDLD 20 SLAY-screened peptide P2577 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAATCTCATGGTCATGTATACTACGGCGTCGAGCCTGTCTCACTACTGGGACCTGGATTAA INLMVMYTTASSLSHYWDLD* -1.643 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24228 LQVVLPYGCYSSNYFCYNLL 20 SLAY-screened peptide P2578 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCAGGTTGTTCTGCCTTATGGTTGTTACTCGTCCAACTATTTTTGTTACAATCTCCTTTAA LQVVLPYGCYSSNYFCYNLL* -1.643 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24229 CECANICYYPPYWNII 16 SLAY-screened peptide P2579 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGAGTGCGCTAATATTTGTTATTACCCTCCCTATTGGAACATCATTTAGTATGTCTAGTAA CECANICYYPPYWNII*YV** -1.643 0.015522 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24230 RATSPVIS 8 SLAY-screened peptide P2580 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGCTACTTCTCCTGTTATCTCTTAGTGTCGTGACCACTCTGTGGCGGTGTGCATGAACTAA RATSPVIS*CRDHSVAVCMN* -1.643 0.000374 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24231 TRIILDGYPSNPLNALANDN 20 SLAY-screened peptide P2581 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCGCATCATCTTGGATGGCTATCCGTCTAATCCTCTGAATGCCTTGGCTAACGACAATTAA TRIILDGYPSNPLNALANDN* -1.643 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24232 LSGCYAPSTHVLHAWEKISV 20 SLAY-screened peptide P2582 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAGCGGGTGTTATGCTCCTAGTACTCACGTGCTCCATGCCTGGGAGAAGATCAGCGTCTAA LSGCYAPSTHVLHAWEKISV* -1.642 0.000666 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24233 ALHFSLLLFRFCRSRTCRHC 20 SLAY-screened peptide P2583 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTTGCATTTCAGTCTTCTCCTCTTTAGGTTCTGTCGCTCGCGTACGTGTAGGCATTGTTAA ALHFSLLLFRFCRSRTCRHC* -1.642 0.000152 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24234 PQAMGRRITSRSGTHTWKMC 20 SLAY-screened peptide P2584 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCAGGCCATGGGCCGGCGTATTACCTCCCGTTCGGGTACCCATACCTGGAAGATGTGTTAA PQAMGRRITSRSGTHTWKMC* -1.642 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24235 PLSCTLEVVSNYCTGHFKCP 20 SLAY-screened peptide P2585 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCAGCTGCACCCTCGAGGTGGTGTCTAACTACTGTACTGGGCACTTCAAGTGTCCTTAA PLSCTLEVVSNYCTGHFKCP* -1.642 0.000156 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24236 HAPSSTLTLGNLPQSDHTVA 20 SLAY-screened peptide P2586 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCGCCTTCGTCTACGCTTACCTTGGGTAATTTGCCCCAGTCCGACCACACGGTCGCTTAA HAPSSTLTLGNLPQSDHTVA* -1.642 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24237 RLAGTLGHTLTVFYARSIAR 20 SLAY-screened peptide P2587 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTGGCTGGCACCCTGGGCCACACCCTGACGGTTTTCTATGCGCGGTCTATCGCCCGGTAA RLAGTLGHTLTVFYARSIAR* -1.641 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24238 PAWSYSLFWLYFTVYMCFEK 20 SLAY-screened peptide P2588 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCGTGGTCGTACTCCCTGTTTTGGCTTTATTTCACCGTTTATATGTGCTTTGAGAAGTAA PAWSYSLFWLYFTVYMCFEK* -1.641 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24239 HHHHHFNIPLNTVPYSYCLA 20 SLAY-screened peptide P2589 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCATCATCACCACTTCAACATCCCTCTTAATACCGTGCCTTATTCGTATTGCCTCGCTTAA HHHHHFNIPLNTVPYSYCLA* -1.641 0.01151 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24240 CDLYFYL 7 SLAY-screened peptide P2590 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGATCTTTATTTTTATTTGTAGCTTGCGGGGCATAATATTCGTTTCAATCATATTCTGTAA CDLYFYL*LAGHNIRFNHIL* -1.641 0.000741 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24241 STHGDAIYVHSCLWCVIHTR 20 SLAY-screened peptide P2591 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCACGCATGGCGACGCGATTTACGTTCATTCTTGCCTGTGGTGTGTCATTCATACGCGTTAA STHGDAIYVHSCLWCVIHTR* -1.641 0.000055 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24242 CLRSSHL 7 SLAY-screened peptide P2592 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCTCAGGTCTTCTCACCTCTAGCGTGACTGTGCTGCGCATTGTACTGTCGTTATCCCTTAA CLRSSHL*RDCAAHCTVVIP* -1.641 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24243 KYRMTPRFPTICHRIHTMYN 20 SLAY-screened peptide P2593 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTACAGGATGACGCCCCGTTTTCCCACTATCTGTCATCGGATTCATACGATGTATAATTAA KYRMTPRFPTICHRIHTMYN* -1.639 0.000181 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24244 DPTAAMYTPCTATVVT 16 SLAY-screened peptide P2594 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCTACCGCCGCCATGTACACCCCGTGCACCGCCACCGTCGTCACGTAGAATCGCGCCTAA DPTAAMYTPCTATVVT*NRA* -1.639 0.017461 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24245 HPVHTTFSNPCDITHTPYTFK 21 SLAY-screened peptide P2595 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCCGTCCATACCACCTTTTCCAACCCCTGCGACATCACTCACACGCCGTACACTTTCAAG HPVHTTFSNPCDITHTPYTFK -1.639 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24246 TGRRSNVSKHSANIYVNSKG 20 SLAY-screened peptide P2596 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGGCCGCAGGTCCAATGTTAGTAAGCATTCGGCTAACATTTATGTTAACTCTAAGGGCTAA TGRRSNVSKHSANIYVNSKG* -1.638 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24247 PLSSNGDCHLFIHYDYV 17 SLAY-screened peptide P2597 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTGTCTTCTAATGGTGACTGCCATCTGTTTATTCACTACGACTATGTTTAGCGCCATTAA PLSSNGDCHLFIHYDYV*RH* -1.638 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24248 RQRFGAIYTATSKYDCTCIR 20 SLAY-screened peptide P2598 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCAGAGGTTTGGCGCTATCTATACGGCTACGTCTAAGTATGACTGCACCTGTATCAGGTAA RQRFGAIYTATSKYDCTCIR* -1.638 0.03453 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24249 QQLKHYLNLMSLYLHAFLRH 20 SLAY-screened peptide P2599 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCAGCTTAAGCACTACCTTAACCTTATGTCCCTGTACCTGCATGCGTTTCTCCGCCACTAA QQLKHYLNLMSLYLHAFLRH* -1.638 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24250 LHHSYTPVFPFNNSLPCVLF 20 SLAY-screened peptide P2600 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCATCATTCTTATACTCCGGTGTTCCCGTTCAATAACAGTCTTCCCTGCGTCTTGTTCTAA LHHSYTPVFPFNNSLPCVLF* -1.637 0.000723 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24251 CETPVLQKPFLSDAHTRGPR 20 SLAY-screened peptide P2601 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGAGACTCCTGTCCTTCAGAAGCCTTTTCTCTCCGATGCGCATACGCGCGGTCCTCGGTAA CETPVLQKPFLSDAHTRGPR* -1.637 0.00272 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24252 LADKLRGLLCKYCYRTQICT 20 SLAY-screened peptide P2602 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCTGACAAGCTTCGGGGGCTGCTCTGCAAGTATTGCTACCGCACTCAGATTTGCACGTAA LADKLRGLLCKYCYRTQICT* -1.636 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24253 YRNRARRTFDLHLPPLLVTT 20 SLAY-screened peptide P2603 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAGGAACCGCGCTCGTCGTACCTTTGACCTTCACCTGCCTCCTTTGCTGGTCACTACTTAA YRNRARRTFDLHLPPLLVTT* -1.636 0.002006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24254 RDPT 4 SLAY-screened peptide P2604 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGACCCGACTTAGACTGCTTTGACCCATAATCGTATTGTCCTGGGCTCTGGGATGTGCTAA RDPT*TALTHNRIVLGSGMC* -1.636 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24255 NDAGIIERPNVMHRITRDPF 20 SLAY-screened peptide P2605 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGATGCTGGGATTATTGAGCGCCCCAATGTCATGCACCGCATTACCCGTGACCCCTTCTAA NDAGIIERPNVMHRITRDPF* -1.636 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24256 RPFPKHDFNAILRL 14 SLAY-screened peptide P2606 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCTTTTCCTAAGCACGACTTCAACGCCATTTTGCGTCTTTAGAAGCTTGCCGAGGATTAA RPFPKHDFNAILRL*KLAED* -1.636 0.000074 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24257 NTIRSHLSLLYLIPIEHHEA 20 SLAY-screened peptide P2607 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACCATCCGCAGTCACCTTTCCCTTCTTTACCTTATTCCTATTGAGCATCATGAGGCCTAA NTIRSHLSLLYLIPIEHHEA* -1.635 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24258 SYLSQYKSNYIRLLGISTSP 20 SLAY-screened peptide P2608 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTATCTCTCCCAGTATAAGTCCAATTATATTAGGCTGCTGGGCATCTCGACGAGTCCCTAA SYLSQYKSNYIRLLGISTSP* -1.635 0.000385 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24259 PSADFFNLKNKCYNYIELFV 20 SLAY-screened peptide P2609 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCGGCCGACTTTTTCAATCTTAAGAATAAGTGCTATAACTATATTGAGTTGTTTGTTTAA PSADFFNLKNKCYNYIELFV* -1.634 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24260 TQYECFTAIHNRASFDHLLV 20 SLAY-screened peptide P2610 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCAGTATGAGTGTTTTACTGCGATCCACAATCGCGCCTCCTTTGACCATCTTTTGGTTTAA TQYECFTAIHNRASFDHLLV* -1.634 0.002696 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24261 YRFLPLEVVLLHGW 14 SLAY-screened peptide P2611 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCGCTTTTTACCGCTGGAAGTCGTTTTACTTCATGGTTGGTAACACGAACAGGTAGTAACT YRFLPLEVVLLHGW*HEQVVT -1.634 0.021318 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24262 FATGWAGFRDCLTMNSTHIN 20 SLAY-screened peptide P2612 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGCTACCGGGTGGGCTGGTTTCCGTGATTGCTTGACCATGAATAGTACGCACATTAACTAA FATGWAGFRDCLTMNSTHIN* -1.634 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24263 VPHTPNVNYSGVQSVTEINV 20 SLAY-screened peptide P2613 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCCTCATACTCCTAACGTTAACTACTCGGGGGTGCAGTCCGTTACCGAGATTAACGTGTAA VPHTPNVNYSGVQSVTEINV* -1.634 0.017019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24264 YSLMLSCYSTRYIFIGENSP 20 SLAY-screened peptide P2614 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCGTTGATGCTGTCCTGCTACTCCACTCGTTATATTTTCATCGGGGAGAACAGCCCCTAA YSLMLSCYSTRYIFIGENSP* -1.634 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24265 CSHTWFVDITIFHCSDFSG 19 SLAY-screened peptide P2615 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTCGCACACCTGGTTCGTGGATATTACTATTTTCCACTGCAGTGATTTCAGTGGTTAGTAA CSHTWFVDITIFHCSDFSG** -1.634 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24266 ISGTLPHGNTWRKCAHIPDY 20 SLAY-screened peptide P2616 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAGCGGTACCCTTCCCCATGGCAACACTTGGAGGAAGTGCGCCCACATTCCGGATTACTAA ISGTLPHGNTWRKCAHIPDY* -1.633 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24267 SPRVHSLEEGKYQGAMIDSD 20 SLAY-screened peptide P2617 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCCCCGGGTTCACTCCTTGGAGGAGGGTAAGTACCAGGGTGCCATGATTGACTCCGACTAA SPRVHSLEEGKYQGAMIDSD* -1.633 0.000293 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24268 PSASASNSFIPTKNLTCRGP 20 SLAY-screened peptide P2618 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGTGCGTCCGCGAGCAATAGTTTCATTCCCACGAAGAATCTTACCTGTAGGGGTCCGTAA PSASASNSFIPTKNLTCRGP* -1.633 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24269 SA 2 SLAY-screened peptide P2619 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGCCTAGTGACCGACGCCCTTCCTTTTTGTCGTACCTACTTGAACACTACGTATGTCTAAC SA**PTPFLFVVPT*TLRMSN -1.633 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24270 LFGTLVLFSYYLDTHAR 17 SLAY-screened peptide P2620 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTTCGGTACCCTTGTCCTCTTTAGCTATTACCTTGATACGCATGCTCGGTAGCGCTACTAA LFGTLVLFSYYLDTHAR*RY* -1.633 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24271 RHSNSRSNNHSLGSSSNFVV 20 SLAY-screened peptide P2621 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCACTCTAATTCGCGCTCGAATAATCATTCCCTGGGGTCCTCGAGTAATTTTGTGGTTTAA RHSNSRSNNHSLGSSSNFVV* -1.633 0.000128 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24272 LLPKA 5 SLAY-screened peptide P2622 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTGCCGAAGGCCTAGATCTCCGAGTCTCTTAGGGCGTATGACGTCCTCTCTGACAGTTAA LLPKA*ISESLRAYDVLSDS* -1.633 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24273 YLNNITGPMVAKHTDTFYPA 20 SLAY-screened peptide P2623 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCTTAATAATATTACGGGGCCTATGGTTGCCAAGCACACTGATACTTTTTATCCCGCTTAA YLNNITGPMVAKHTDTFYPA* -1.632 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24274 HFTIY 5 SLAY-screened peptide P2624 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTTTACGATCTACTAGTCGGTCTATCTTACCCAGCGGCACCATGTTACGAGCTAGTCGTAA HFTIY*SVYLTQRHHVTS*S* -1.632 0.009444 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24275 CAPLCFAIHRYKASFQNLKD 20 SLAY-screened peptide P2625 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCCCCCCTGTGCTTTGCCATTCATCGTTATAAGGCTTCGTTTCAGAATCTCAAGGACTAA CAPLCFAIHRYKASFQNLKD* -1.632 0.018012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24276 RARPACAHAHTRKTASASIS 20 SLAY-screened peptide P2626 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCCCGTCCCGCGTGTGCTCACGCCCATACGCGCAAGACCGCGTCGGCGTCGATTTCCTAA RARPACAHAHTRKTASASIS* -1.631 0.015024 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24277 DTNMIASIWRNRDNLYKSED 20 SLAY-screened peptide P2627 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACACCAACATGATCGCCAGTATCTGGCGTAACCGTGACAACCTTTATAAGTCTGAGGATTAA DTNMIASIWRNRDNLYKSED* -1.631 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24278 PSRARVIVSVNINLYVYLFF 20 SLAY-screened peptide P2628 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCTCGGGCTCGCGTTATTGTTAGCGTCAATATCAATCTCTACGTTTACCTCTTTTTTTAA PSRARVIVSVNINLYVYLFF* -1.631 0.000653 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24279 PYDSKDPCSARNLTFLYHQL 20 SLAY-screened peptide P2629 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATGACTCGAAGGACCCCTGCAGTGCCCGTAATCTGACTTTTCTTTATCACCAGCTCTAA PYDSKDPCSARNLTFLYHQL* -1.63 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24280 RIPLNSNVTRSDSSICTKCI 20 SLAY-screened peptide P2630 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATTCCCCTCAATTCTAACGTCACCCGTTCCGACTCTAGTATTTGCACTAAGTGTATTTAA RIPLNSNVTRSDSSICTKCI* -1.629 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24281 TGPETNRPSRN 11 SLAY-screened peptide P2631 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGTCCCGAGACCAACCGCCCCTCCAGGAACTAGACCTGGTCTATGCTGTCGATGATCTAA TGPETNRPSRN*TWSMLSMI* -1.629 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24282 SLHRHFHIYTSSLPYYFFPT 20 SLAY-screened peptide P2632 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCTCCATAGGCATTTTCACATTTACACGAGCTCTTTGCCCTATTATTTTTTCCCCACTTAA SLHRHFHIYTSSLPYYFFPT* -1.629 0.002693 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24283 HSLSCRQYIVEPLYILNNSI 20 SLAY-screened peptide P2633 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTCCTTGAGTTGTCGTCAGTACATCGTGGAGCCGTTGTATATCCTGAATAATAGTATTTAA HSLSCRQYIVEPLYILNNSI* -1.629 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24284 RVEKPTLRSSVYFRTLLNQN 20 SLAY-screened peptide P2634 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGTGGAGAAGCCTACTCTGCGCAGCAGTGTCTACTTTAGGACGCTGTTGAACCAGAACTAA RVEKPTLRSSVYFRTLLNQN* -1.629 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24285 QPRTSRYFCPHITCPYGFYY 20 SLAY-screened peptide P2635 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCCCGGACTAGTAGGTATTTTTGCCCCCATATTACTTGTCCCTATGGCTTTTACTACTAA QPRTSRYFCPHITCPYGFYY* -1.628 0.000141 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24286 ALQFLSSLADYCNNPPSGSA 20 SLAY-screened peptide P2636 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCTTCAGTTCTTGAGTTCCCTGGCCGACTATTGCAATAATCCCCCGAGTGGCTCCGCCTAA ALQFLSSLADYCNNPPSGSA* -1.628 0.031369 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24287 RTVLRTFHFPSSLQFSLCKS 20 SLAY-screened peptide P2637 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACCGTGCTTCGGACGTTTCATTTTCCTTCGTCTCTTCAGTTTTCGTTGTGTAAGTCGTAA RTVLRTFHFPSSLQFSLCKS* -1.628 0.000788 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24288 FG 2 SLAY-screened peptide P2638 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGGGTAGGTGCCCTCTCCGTATTAGAGTACCCGTGTCATTCCTTATTCTCCCTTCCGTTAA FG*VPSPY*STRVIPYSPFR* -1.628 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24289 LNR 3 SLAY-screened peptide P2639 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAACCGTTGAAGAGCCTCCTGAATGTCCATTGTCATGTCACTAACTACCACCCGAACTAAC LNR*RAS*MSIVMSLTTTRTN -1.628 0.0441 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24290 RPCCSTARYRDLFA 14 SLAY-screened peptide P2640 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCCTGTTGCTCCACTGCTCGCTACCGGGACCTGTTTGCTTAGTGCTCCATCCACTTCTAA RPCCSTARYRDLFA*CSIHF* -1.627 0.026413 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24291 HPYTPLCTDFWGSSMILVSS 20 SLAY-screened peptide P2641 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTTACACCCCTCTGTGTACGGACTTTTGGGGTTCGTCGATGATTCTCGTGTCCTCGTAA HPYTPLCTDFWGSSMILVSS* -1.627 0.013358 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24292 NTAWRHSTNFPSSSCPFVPL 20 SLAY-screened peptide P2642 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACCGCCTGGCGCCACAGTACGAACTTTCCGTCCTCTTCTTGTCCGTTCGTTCCTCTTTAA NTAWRHSTNFPSSSCPFVPL* -1.627 0.045004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24293 EPVISPSTTDKCCPNLFWYL 20 SLAY-screened peptide P2643 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCCGGTCATCAGCCCTTCGACGACGGACAAGTGTTGCCCTAACCTCTTCTGGTACCTTTAA EPVISPSTTDKCCPNLFWYL* -1.627 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24294 YSPRSHS 7 SLAY-screened peptide P2644 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACAGCCCGCGCTCTCACTCCTAGACTTCCGCTTGTTATGCTCCTGCTAATCTTTGCTGCTAA YSPRSHS*TSACYAPANLCC* -1.627 0.000335 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24295 DPGWNYHFYSHRLQFHTNHS 20 SLAY-screened peptide P2645 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCCGGTTGGAATTATCATTTCTATTCGCATCGCCTGCAGTTCCACACCAACCACTCTTAA DPGWNYHFYSHRLQFHTNHS* -1.627 0.027259 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24296 TLKCPLCIRRHE 12 SLAY-screened peptide P2646 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTTAAGTGCCCCCTCTGTATTCGGCGCCATGAGTAGAGCACCGATAACATCACTCCTTAA TLKCPLCIRRHE*STDNITP* -1.627 0.00369 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24297 VTIDDSILRRTVPKRGNFNV 20 SLAY-screened peptide P2647 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTACCATCGACGATTCGATTTTGCGGCGTACGGTCCCGAAGCGGGGTAACTTTAACGTTTAA VTIDDSILRRTVPKRGNFNV* -1.626 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24298 QGDLSSRALAIYFMPISRNG 20 SLAY-screened peptide P2648 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGGGGATCTCTCCTCGCGCGCCCTCGCTATCTACTTTATGCCGATTTCGAGGAATGGCTAA QGDLSSRALAIYFMPISRNG* -1.626 0.000439 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24299 RAYFTWPDGCRLLIT 15 SLAY-screened peptide P2649 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGCCTATTTCACGTGGCCCGATGGCTGCCGTCTCCTCATCACGTAGACGTCGAGCAAGTAA RAYFTWPDGCRLLIT*TSSK* -1.626 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24300 AAPTWHFSFYYQSSSTFSND 20 SLAY-screened peptide P2650 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCTCCGACTTGGCACTTTTCTTTTTACTATCAGAGCTCGAGCACGTTTAGCAACGATTAA AAPTWHFSFYYQSSSTFSND* -1.625 0.001122 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24301 GDPSH 5 SLAY-screened peptide P2651 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGACCCCTCCCACTAGTCCTGTCAGATTAGCACTACTATTAACGCTACTAGGAAGCCGTAA GDPSH*SCQISTTINATRKP* -1.625 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24302 PMTPRMNRKHYYTHLHADSS 20 SLAY-screened peptide P2652 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATGACGCCTCGCATGAACAGGAAGCATTATTATACCCACCTGCATGCTGATTCGAGCTAA PMTPRMNRKHYYTHLHADSS* -1.624 0.005715 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24303 MYVPGSWSSPPYFFL 15 SLAY-screened peptide P2653 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTACGTTCCCGGGTCTTGGTCATCACCCCCTTACTTCTTTCTTTGAGTCCCTCCAGCACTC MYVPGSWSSPPYFFL*VPPAL -1.624 0.002943 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24304 TNNDNGTNNLDGLVSVQCCP 20 SLAY-screened peptide P2654 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAATAACGACAATGGTACTAATAACCTTGACGGCCTCGTTAGCGTGCAGTGTTGCCCTTAA TNNDNGTNNLDGLVSVQCCP* -1.624 0.001004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24305 PKTTLAYSLVHRSRKCHLWS 20 SLAY-screened peptide P2655 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAAGACGACCTTGGCTTACTCCCTGGTTCATCGTAGTAGGAAGTGCCACTTGTGGAGTTAA PKTTLAYSLVHRSRKCHLWS* -1.624 0.002672 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24306 SSSPCNNSTRVARILPLYSL 20 SLAY-screened peptide P2656 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAGTTCTCCGTGCAACAACAGTACCCGGGTTGCTCGTATTCTTCCGCTTTATTCCCTCTAA SSSPCNNSTRVARILPLYSL* -1.624 0.000041 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24307 APSLSLLQRTVFSLSTCTSV 20 SLAY-screened peptide P2657 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCTTCTCTGAGTCTTCTCCAGAGGACCGTGTTTTCTCTGAGCACCTGCACCAGTGTTTAA APSLSLLQRTVFSLSTCTSV* -1.624 0.032204 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24308 PLRDITRRIWRGLLMKVADF 20 SLAY-screened peptide P2658 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCCGCGATATTACGCGTCGCATTTGGCGGGGTCTCTTGATGAAGGTCGCTGACTTCTAA PLRDITRRIWRGLLMKVADF* -1.624 0.001333 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24309 RPSRSVRVQCPNFSKPNSYG 20 SLAY-screened peptide P2659 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCGTCGCGTTCTGTCAGGGTTCAGTGTCCGAATTTCTCTAAGCCTAATAGCTACGGTTAA RPSRSVRVQCPNFSKPNSYG* -1.624 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24310 MLLLIHLGPARTARPEYPKK 20 SLAY-screened peptide P2660 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCTGTTGCTTATCCATCTTGGCCCCGCTCGCACGGCGCGCCCCGAGTATCCGAAGAAGTAA MLLLIHLGPARTARPEYPKK* -1.624 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24311 CLHPIRGKMLPVPTWLAFTV 20 SLAY-screened peptide P2661 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTTCACCCTATTCGGGGCAAGATGCTGCCTGTCCCTACTTGGCTTGCTTTCACCGTCTAA CLHPIRGKMLPVPTWLAFTV* -1.623 0.002627 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24312 ENTSIRAHFTVHCSYLSTDY 20 SLAY-screened peptide P2662 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAATACTAGTATTCGGGCTCATTTTACCGTCCATTGTTCGTACCTGTCTACTGACTACTAA ENTSIRAHFTVHCSYLSTDY* -1.623 0.000637 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24313 DAYGFPAPYAPLGLCTFHQL 20 SLAY-screened peptide P2663 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGCGTACGGCTTTCCCGCGCCGTACGCCCCTCTGGGCCTCTGCACCTTCCATCAGCTGTAA DAYGFPAPYAPLGLCTFHQL* -1.623 0.003307 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24314 CARNVPHHRYPGPGPPRLPL 20 SLAY-screened peptide P2664 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCCCGCAATGTGCCTCACCACCGGTATCCTGGCCCTGGGCCTCCTCGCCTGCCCCTCTAA CARNVPHHRYPGPGPPRLPL* -1.623 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24315 HVTVVYIAHSHLQSGNPPMD 20 SLAY-screened peptide P2665 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGTTACGGTTGTTTACATTGCTCACAGCCATTTGCAGTCTGGTAACCCTCCTATGGACTAA HVTVVYIAHSHLQSGNPPMD* -1.622 0.007508 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24316 RPVFAHSRYIGAMSKIALLK 20 SLAY-screened peptide P2666 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCGGTCTTCGCGCACTCCCGTTATATCGGTGCCATGAGCAAGATTGCCCTTTTGAAGTAA RPVFAHSRYIGAMSKIALLK* -1.622 0.001513 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24317 SRALPASSNTTDPTTAMHSW 20 SLAY-screened peptide P2667 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGTGCCCTCCCGGCGAGTTCTAACACTACCGATCCCACCACCGCGATGCACTCGTGGTAA SRALPASSNTTDPTTAMHSW* -1.622 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24318 PHLISQT 7 SLAY-screened peptide P2668 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCATCTTATTAGTCAGACGTAGCAGCAGTAGCCGAAGATGAGTAGTATTTTGCTTGACTAA PHLISQT*QQ*PKMSSILLD* -1.621 0.000031 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24319 DFHCAPKINRFPEGYGTLQT 20 SLAY-screened peptide P2669 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTTCCATTGTGCGCCGAAGATCAATCGGTTTCCGGAGGGCTATGGCACCCTGCAGACTTAA DFHCAPKINRFPEGYGTLQT* -1.621 0.002189 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24320 VR 2 SLAY-screened peptide P2670 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCGTTAGATTACTCCCTCCGCTAGGTTTATTCGCACTATCGCGCGTCTGTTCTACTCCTAA VR*ITPSARFIRTIARLFYS* -1.621 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24321 PLERFCSCRHLDFYHSLAID 20 SLAY-screened peptide P2671 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTGGAGCGTTTCTGTAGCTGCCGCCATTTGGATTTCTATCATTCGCTGGCGATCGACTAA PLERFCSCRHLDFYHSLAID* -1.621 0.000076 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24322 FWVPHHGRCCIHHHYLILPR 20 SLAY-screened peptide P2672 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTGGGTTCCCCATCATGGTCGCTGTTGCATCCACCACCACTATCTTATCCTGCCGCGCTAA FWVPHHGRCCIHHHYLILPR* -1.621 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24323 CFRGHPLNVLGNLLIASHTR 20 SLAY-screened peptide P2673 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTTCCGCGGGCACCCTCTTAACGTGCTTGGTAATTTGCTTATTGCTAGCCACACGCGCTAA CFRGHPLNVLGNLLIASHTR* -1.62 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24324 PPCPFVKITSNTCSCDSANI 20 SLAY-screened peptide P2674 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTTGTCCCTTCGTGAAGATTACTTCGAACACTTGTAGTTGTGATAGCGCGAATATCTAA PPCPFVKITSNTCSCDSANI* -1.62 0.031151 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24325 PLPRICSGPPNN 12 SLAY-screened peptide P2675 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTGCCTCGCATTTGTTCTGGGCCCCCTAATAACTAGTCTACCACTCTTCTGTAGTACTAA PLPRICSGPPNN*STTLL*Y* -1.62 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24326 NTLAIVDIEPFVRGCDPAHA 20 SLAY-screened peptide P2676 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACGCTCGCCATTGTCGATATCGAGCCCTTTGTGCGGGGGTGCGATCCGGCTCATGCTTAA NTLAIVDIEPFVRGCDPAHA* -1.62 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24327 LTHNSTSSNPNSITI 15 SLAY-screened peptide P2677 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGACGCATAATAGTACTTCCAGTAACCCTAACTCCATTACCATTTAGTGTTGTTTTATTTAA LTHNSTSSNPNSITI*CCFI* -1.619 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24328 CPRYPVMDVL 10 SLAY-screened peptide P2678 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCGCGGTACCCCGTGATGGACGTGCTGTAGATCGGGCGTATGATGAGCCAGAACCACTAA CPRYPVMDVL*IGRMMSQNH* -1.619 0.000771 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24329 PYLSSGISALCPIGFLYSFV 20 SLAY-screened peptide P2679 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATCTTTCTTCTGGGATCTCCGCCCTGTGTCCCATTGGGTTCCTGTACAGCTTTGTCTAA PYLSSGISALCPIGFLYSFV* -1.618 0.000032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24330 PPNIRCKSWTLNPRNFRLRP 20 SLAY-screened peptide P2680 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCTAATATCAGGTGCAAGAGTTGGACTCTCAACCCTAGGAACTTTCGTCTTAGGCCCTAA PPNIRCKSWTLNPRNFRLRP* -1.618 0.002721 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24331 HPYFPLAMYIL 11 SLAY-screened peptide P2681 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGTACTTTCCGCTCGCCATGTACATTCTCTAGAATCTCTCTGGGATTAAGGCCACCTAA HPYFPLAMYIL*NLSGIKAT* -1.618 0.007115 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24332 QPGTSPSLANPTCYHSLKIY 20 SLAY-screened peptide P2682 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCGGGGACCTCTCCGAGTTTGGCTAATCCGACCTGCTATCATTCGCTGAAGATTTATTAA QPGTSPSLANPTCYHSLKIY* -1.618 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24333 PKFTSHDPCAYSESNLFFKN 20 SLAY-screened peptide P2683 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAAGTTTACCTCTCATGACCCCTGCGCCTACAGCGAGTCTAATCTTTTTTTTAAGAACTAA PKFTSHDPCAYSESNLFFKN* -1.618 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24334 RYIGTLNTYPDYHILPSYIL 20 SLAY-screened peptide P2684 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTATATCGGCACCCTTAATACCTACCCTGACTACCATATTCTGCCCTCGTACATTTTGTAA RYIGTLNTYPDYHILPSYIL* -1.618 0.010262 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24335 NVIPPYCFHYDYHHCCNRYH 20 SLAY-screened peptide P2685 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGTCATTCCTCCCTACTGTTTCCACTACGACTATCATCATTGTTGCAACCGCTACCATTAA NVIPPYCFHYDYHHCCNRYH* -1.618 0.010177 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24336 LWQFMCPCQLLQFPIWYAPM 20 SLAY-screened peptide P2686 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTGGCAGTTTATGTGCCCTTGCCAGCTTCTCCAGTTCCCTATCTGGTACGCCCCTATGTAA LWQFMCPCQLLQFPIWYAPM* -1.618 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24337 NPSCPVNCLSWSPLTFYFLI 20 SLAY-screened peptide P2687 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCCCTCCTGCCCTGTGAACTGTCTTTCCTGGTCGCCTCTGACGTTCTACTTCTTGATTTAA NPSCPVNCLSWSPLTFYFLI* -1.617 0.000144 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24338 CPTFNYFHSAAPWMLPVASTS 21 SLAY-screened peptide P2688 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCCACTTTTAACTACTTTCATTCCGCCGCCCCGTGGATGCTCCCCGTCGCGAGCACGAGC CPTFNYFHSAAPWMLPVASTS -1.617 0.000237 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24339 LLSQSLRGPGNEPIHLLSVC 20 SLAY-screened peptide P2689 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTTGTCGCAGAGCCTGCGCGGTCCTGGCAACGAGCCTATTCACTTGCTTAGCGTGTGCTAA LLSQSLRGPGNEPIHLLSVC* -1.617 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24340 AASHVYSMDPSWFHTYPLLS 20 SLAY-screened peptide P2690 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGCTTCCCATGTTTACTCTATGGATCCGTCCTGGTTCCACACTTATCCTTTGCTCTCCTAA AASHVYSMDPSWFHTYPLLS* -1.617 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24341 RSVG 4 SLAY-screened peptide P2691 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTCGGTTGGCTAGGCGCCCGGTTCCTATAAGAACTCGATGTTCATATCTATGCGAGTTAAC RSVG*APGSYKNSMFISMRVN -1.616 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24342 LLDKLLHGFCNLRGHNR 17 SLAY-screened peptide P2692 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTTGATAAGTTGTTGCACGGGTTCTGTAATCTCCGCGGGCATAATCGCTAGTAGAATTAA LLDKLLHGFCNLRGHNR**N* -1.616 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24343 SYFRSNVYNTVPTSRRCPLP 20 SLAY-screened peptide P2693 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTACTTCCGCTCTAACGTCTATAACACGGTCCCGACGAGTAGGCGCTGTCCCCTCCCCTAA SYFRSNVYNTVPTSRRCPLP* -1.616 0.004191 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24344 GSFTAHNHVNICSNRPLLNF 20 SLAY-screened peptide P2694 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTCTTTTACCGCCCACAATCATGTTAATATTTGCAGTAATAGGCCGCTGCTCAATTTTTAA GSFTAHNHVNICSNRPLLNF* -1.616 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24345 LNTDGSLLRPV 11 SLAY-screened peptide P2695 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAATACGGACGGCTCTCTGCTTAGGCCTGTTTAGGGTATCATCCACCCTGTTTTGTTCTAA LNTDGSLLRPV*GIIHPVLF* -1.615 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24346 TN 2 SLAY-screened peptide P2696 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAATTAGTTTAGTTACTGTCATAATCATCCTATCTACGTCAGTAATTTCCAGAACCACTAA TN*FSYCHNHPIYVSNFQNH* -1.615 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24347 RSRARDPPTQRRGPGDTLYS 20 SLAY-screened peptide P2697 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCGCGGGCGCGTGACCCGCCCACGCAGCGTAGGGGCCCCGGCGATACTCTGTATTCGTAA RSRARDPPTQRRGPGDTLYS* -1.615 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24348 PLSSQRYSDSHLGPNHPRPT 20 SLAY-screened peptide P2698 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTAGCAGTCAGCGGTATTCCGACTCTCACTTGGGCCCCAATCATCCTCGCCCTACTTAA PLSSQRYSDSHLGPNHPRPT* -1.615 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24349 RNCVTRYTIRPNIKYMGPFK 20 SLAY-screened peptide P2699 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAATTGCGTCACCCGGTATACTATCCGTCCCAACATCAAGTATATGGGCCCCTTCAAGTAA RNCVTRYTIRPNIKYMGPFK* -1.615 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24350 TGYRFYTYNTPLHH 14 SLAY-screened peptide P2700 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGGTTACCGCTTTTACACTTACAACACTCCGCTTCATCACTAGTACCTGACGTACGGCTAA TGYRFYTYNTPLHH*YLTYG* -1.614 0.000093 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24351 IDAAHYVRFDTYTYDDISSD 20 SLAY-screened peptide P2701 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGATGCGGCGCACTATGTCCGCTTTGACACGTATACTTACGACGATATTTCTTCGGACTAA IDAAHYVRFDTYTYDDISSD* -1.614 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24352 CLTYYAQ 7 SLAY-screened peptide P2702 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCACGTACTACGCCCAGTAGATCCATCTTAATAGCCGCGCTGCGACCGCCGCCAACTAA CLTYYAQ*IHLNSRAATAAN* -1.614 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24353 SRPTSRFLEGHSRSMTEPAS 20 SLAY-screened peptide P2703 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGTCCTACCTCCCGCTTTCTGGAGGGCCATTCGCGGTCCATGACGGAGCCCGCGTCTTAA SRPTSRFLEGHSRSMTEPAS* -1.614 0.00306 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24354 KKAPICDRTPLTSPFYTWMV 20 SLAY-screened peptide P2704 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGAAGGCGCCCATTTGTGACCGCACCCCGCTGACGAGCCCGTTCTACACTTGGATGGTTTAA KKAPICDRTPLTSPFYTWMV* -1.613 0.000592 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24355 PPLFTRVTTSVPE 13 SLAY-screened peptide P2705 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTCTCTTTACTCGTGTCACCACCTCGGTTCCTGAGTAGCATTCTTATGCTCACCCGTAA PPLFTRVTTSVPE*HSYAHP* -1.613 0.028453 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24356 HMPPNNASVDLHNSSSIIEM 20 SLAY-screened peptide P2706 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATGCCCCCGAATAACGCGTCGGTTGATCTTCATAATTCCAGCTCTATCATCGAGATGTAA HMPPNNASVDLHNSSSIIEM* -1.613 0.02047 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24357 SNCRIRTVNIH 11 SLAY-screened peptide P2707 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAACTGTCGGATTCGTACCGTCAATATCCATTAGGCCTTCAGTCGCAGTAAGTCGGTTTAA SNCRIRTVNIH*AFSRSKSV* -1.613 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24358 RHNRDVIPYSPAPCLPMYNN 20 SLAY-screened peptide P2708 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCACAACCGTGATGTCATCCCCTACTCTCCGGCTCCGTGCCTTCCCATGTATAACAATTAA RHNRDVIPYSPAPCLPMYNN* -1.613 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24359 AVPPPHTLDDHHFNNSKTFS 20 SLAY-screened peptide P2709 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGTCCCTCCGCCTCATACTCTTGATGATCATCACTTTAACAACAGTAAGACCTTTTCTTAA AVPPPHTLDDHHFNNSKTFS* -1.613 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24360 VQSLDVQYMAICH 13 SLAY-screened peptide P2710 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCAGTCTCTTGATGTGCAGTACATGGCTATTTGTCATTAGTAGGGGACCGCTTAGGTCTAA VQSLDVQYMAICH**GTA*V* -1.613 0.001558 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24361 SAHIISSIE 9 SLAY-screened peptide P2711 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGCCCATATTATTTCTTCCATTGAGTAGGACCAGCAGTCCATCGAGAGCTTTAAGAGGTAA SAHIISSIE*DQQSIESFKR* -1.613 0.016074 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24362 SRQPQYYYGYIFMSPGRISN 20 SLAY-screened peptide P2712 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCGGCAGCCCCAGTACTATTACGGGTATATTTTCATGTCTCCCGGGCGGATTTCCAACTAA SRQPQYYYGYIFMSPGRISN* -1.612 0.000422 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24363 QGRILNKGIIPLLPCLAMTGN 21 SLAY-screened peptide P2713 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGGTCGCATCTTGAACAAGGGAATTATCCCTCTTTTACCCTGCCTAGCAATGACTGGTAAC QGRILNKGIIPLLPCLAMTGN -1.612 0.000363 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24364 FWVMRHRSNEGLGSDQTGSI 20 SLAY-screened peptide P2714 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTGGGTCATGAGGCATAGGTCGAACGAGGGTCTGGGCTCCGATCAGACCGGGAGCATTTAA FWVMRHRSNEGLGSDQTGSI* -1.612 0.021618 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24365 TPYYCAPLSTFKVTELDITI 20 SLAY-screened peptide P2715 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCCCTATTACTGCGCCCCCCTGTCGACCTTTAAGGTTACCGAGCTGGACATCACGATTTAA TPYYCAPLSTFKVTELDITI* -1.612 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24366 VDRFPWNAKLYCGSAIPHNI 20 SLAY-screened peptide P2716 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGACCGTTTTCCCTGGAATGCGAAGTTGTATTGTGGCTCGGCCATTCCGCATAATATCTAA VDRFPWNAKLYCGSAIPHNI* -1.612 0.000461 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24367 SFFHASLTEHYCTHQLSLAQ 20 SLAY-screened peptide P2717 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTTCTTCCACGCCAGCCTTACTGAGCATTACTGTACTCACCAGCTGTCCCTCGCCCAGTAA SFFHASLTEHYCTHQLSLAQ* -1.612 0.001974 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24368 SMYFNARLGRAVFSSHPLDN 20 SLAY-screened peptide P2718 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTATGTACTTTAACGCCCGCCTGGGTCGGGCCGTGTTCAGCAGCCATCCGTTGGATAATTAA SMYFNARLGRAVFSSHPLDN* -1.612 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24369 FIFSIVYARRNLPKRLPSTS 20 SLAY-screened peptide P2719 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTATTTTCTCTATTGTCTATGCCCGGCGGAATCTTCCGAAGCGTTTGCCCTCCACTAGTTAA FIFSIVYARRNLPKRLPSTS* -1.612 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24370 PCYPNIMLLLLLSLIRSYWL 20 SLAY-screened peptide P2720 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCTATCCCAATATCATGTTGCTTCTGCTCCTGAGTCTGATTCGCTCCTATTGGCTTTAA PCYPNIMLLLLLSLIRSYWL* -1.612 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24371 PSRYTAASAPPPSIRSTHAY 20 SLAY-screened peptide P2721 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGTAGGTACACGGCCGCTTCGGCTCCTCCGCCCAGCATCCGTTCGACCCACGCCTATTAA PSRYTAASAPPPSIRSTHAY* -1.611 0.006705 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24372 MTSSFTLPSVICNQLPSPPI 20 SLAY-screened peptide P2722 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGACCAGCAGTTTCACTCTCCCTTCGGTTATTTGTAATCAGCTTCCTTCTCCGCCGATCTAA MTSSFTLPSVICNQLPSPPI* -1.611 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24373 HRPDKINNNETYTELSTTRN 20 SLAY-screened peptide P2723 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGCCCTGACAAGATCAATAACAATGAGACTTATACTGAGTTGTCCACCACTAGGAATTAA HRPDKINNNETYTELSTTRN* -1.611 0.00002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24374 NCSYHLTVR 9 SLAY-screened peptide P2724 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGCAGTTACCACCTCACGGTTCGCTAGGACACCAATGGCCTTTACGTTACGTGCGACTAA NCSYHLTVR*DTNGLYVTCD* -1.611 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24375 LPFAHACPTDLPAMHLTT 18 SLAY-screened peptide P2725 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCGTTTGCTCATGCCTGCCCGACTGATCTTCCCGCTATGCATTTGACCACCTAGGGCTAA LPFAHACPTDLPAMHLTT*G* -1.611 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24376 PLYIFARYPDIADTCKIPPM 20 SLAY-screened peptide P2726 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCTACATCTTTGCGCGCTACCCGGATATCGCCGATACCTGCAAGATCCCGCCGATGTAA PLYIFARYPDIADTCKIPPM* -1.611 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24377 SDLRNTLFWYMTLCGPYALF 20 SLAY-screened peptide P2727 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGACTTGCGCAACACCCTGTTTTGGTACATGACGCTGTGCGGTCCCTATGCGCTTTTCTAA SDLRNTLFWYMTLCGPYALF* -1.611 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24378 TSRNAVANAVGDLATETSII 20 SLAY-screened peptide P2728 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTCCCGTAACGCTGTGGCGAATGCGGTGGGTGATCTGGCCACCGAGACTTCCATTATCTAA TSRNAVANAVGDLATETSII* -1.61 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24379 RFYQQTPPTVGHLPYCTSIV 20 SLAY-screened peptide P2729 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTCTACCAGCAGACGCCGCCTACGGTGGGCCACTTGCCTTATTGCACCAGTATCGTTTAA RFYQQTPPTVGHLPYCTSIV* -1.61 0.000059 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24380 RPECYVFHPVKLAVARLPRT 20 SLAY-screened peptide P2730 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCGGAGTGCTATGTCTTCCACCCGGTGAAGCTGGCTGTCGCCCGCCTTCCCCGGACCTAA RPECYVFHPVKLAVARLPRT* -1.61 0.002824 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24381 PATTHYPHSVRCLDIHNFPH 20 SLAY-screened peptide P2731 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCGACGACCCATTACCCCCACAGTGTGCGTTGCTTGGATATCCATAATTTCCCGCATTAA PATTHYPHSVRCLDIHNFPH* -1.609 0.043794 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24382 KPGSSILGHSSIPSFLIPTT 20 SLAY-screened peptide P2732 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCCGGGTAGTTCTATTCTTGGTCATTCGAGTATCCCCTCTTTTTTGATTCCGACGACGTAA KPGSSILGHSSIPSFLIPTT* -1.609 0.000277 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24383 PSISSGPYGSPHNLARFYFR 20 SLAY-screened peptide P2733 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCTATCTCTTCGGGCCCTTATGGTAGTCCTCATAATCTTGCCCGCTTTTATTTCCGGTAA PSISSGPYGSPHNLARFYFR* -1.609 0.001291 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24384 CALYTYRFFHNHFNACFMYT 20 SLAY-screened peptide P2734 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCCCTGTACACTTATCGCTTCTTTCATAACCATTTCAATGCCTGTTTCATGTATACCTAA CALYTYRFFHNHFNACFMYT* -1.609 0.001275 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24385 PIKQSCFARPIAVTNTSHNL 20 SLAY-screened peptide P2735 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATCAAGCAGTCCTGTTTTGCCCGCCCCATCGCCGTTACGAATACGAGTCACAATCTGTAA PIKQSCFARPIAVTNTSHNL* -1.608 0.000315 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24386 HWDPLPSNPPASTPDARHAY 20 SLAY-screened peptide P2736 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTGGGATCCTCTCCCCAGTAATCCGCCTGCTAGTACTCCCGACGCGCGTCACGCGTATTAA HWDPLPSNPPASTPDARHAY* -1.608 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24387 TARNRYHATTITHYGARKNC 20 SLAY-screened peptide P2737 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCCAGGAACCGTTACCATGCGACTACTATTACTCACTATGGGGCCCGTAAGAATTGCTAA TARNRYHATTITHYGARKNC* -1.608 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24388 NWD 3 SLAY-screened peptide P2738 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTGGGACTAGAAGAGTGCTCCCCACTGCTACAGCACTTCGGATCGCCATACTATCACCTAA NWD*KSAPHCYSTSDRHTIT* -1.608 0.000794 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24389 LTRPPNDRY 9 SLAY-screened peptide P2739 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACCCGGCCTCCCAACGACCGCTACTAGGAGACTATGGATCCCAAGCGCAACCAGGACTAA LTRPPNDRY*ETMDPKRNQD* -1.608 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24390 DPTHDKDDGLLCAPSTIRFL 20 SLAY-screened peptide P2740 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCGACCCATGACAAGGATGACGGCCTCTTGTGCGCCCCTTCTACCATCCGTTTCCTCTAA DPTHDKDDGLLCAPSTIRFL* -1.608 0.010076 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24391 RLIVTVSN 8 SLAY-screened peptide P2741 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTGATCGTTACGGTGAGCAATTAGTTCAACTTTGTGAAGGGGAGTAAGGCTGCCGCTTAA RLIVTVSN*FNFVKGSKAAA* -1.607 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24392 YVCVARNY 8 SLAY-screened peptide P2742 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGTTTGTGTTGCCCGTAATTACTAGTCTACTCCGCTTCTCCGCCCCATTATGACGGCGTAA YVCVARNY*STPLLRPIMTA* -1.607 0.000808 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24393 RPGRDSMFDD 10 SLAY-screened peptide P2743 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCCGGCCGCGATTCCATGTTTGACGACTAGATTGACGTGTCTATCGCTCACGTTGGTAAC RPGRDSMFDD*IDVSIAHVGN -1.607 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24394 VLSS 4 SLAY-screened peptide P2744 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCTTAGCAGTTAGCTCACTGTTCGATTGGTTGTACGACCCGTGCGAACAGCGATAGTTAAC VLSS*LTVRLVVRPVRTAIVN -1.607 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24395 DC 2 SLAY-screened peptide P2745 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTGCTAGAGCCACCTTTGCAATTCGAATTCCGTTTCTAGGGAGCATAGCAATTGTGAGTAA DC*SHLCNSNSVSREHSNCE* -1.607 0.000417 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24396 GVQTPCQLINEYLCCVTIHI 20 SLAY-screened peptide P2746 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGTGCAGACGCCCTGTCAGCTCATCAACGAGTACCTGTGTTGTGTGACCATTCACATTTAA GVQTPCQLINEYLCCVTIHI* -1.606 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24397 SNFPRAADHTLIT 13 SLAY-screened peptide P2747 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAACTTTCCTAGGGCGGCTGACCACACTCTCATTACGTAGACTAGCTATTTGAAGCGCTAA SNFPRAADHTLIT*TSYLKR* -1.606 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24398 LAYVGFFICFLFTRRDADCT 20 SLAY-screened peptide P2748 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCTTATGTCGGTTTTTTCATTTGTTTCCTGTTTACCCGCCGGGACGCCGACTGTACCTAA LAYVGFFICFLFTRRDADCT* -1.606 0.000036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24399 TVAT 4 SLAY-screened peptide P2749 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGTTGCTACTTAGTCGGTGGCGCTTTGCATGCAGATGACTCATGCCGCCGATAACACGTAA TVAT*SVALCMQMTHAADNT* -1.606 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24400 HTSPCPCKYYSLICFSIISN 20 SLAY-screened peptide P2750 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACGTCTCCTTGTCCTTGTAAGTATTATAGTCTTATCTGTTTTTCCATTATCTCCAACTAA HTSPCPCKYYSLICFSIISN* -1.606 0.000034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24401 PGLPCVLVYYNMIFTLPCAF 20 SLAY-screened peptide P2751 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGGCTCCCTTGTGTCCTTGTGTATTACAATATGATTTTCACTTTGCCCTGCGCCTTTTAA PGLPCVLVYYNMIFTLPCAF* -1.605 0.002646 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24402 CHVFDIYMRRYDTLCFVYYS 20 SLAY-screened peptide P2752 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACGTCTTTGACATTTACATGCGCCGTTATGACACGCTCTGCTTCGTTTACTATAGTTAA CHVFDIYMRRYDTLCFVYYS* -1.605 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24403 AVSRMFNNDTLDCHF 15 SLAY-screened peptide P2753 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGTCAGCCGTATGTTCAATAACGATACCCTTGACTGTCATTTCTAGACGGATACTGATTAA AVSRMFNNDTLDCHF*TDTD* -1.605 0.0039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24404 CRARSYWGPFYLLDNVTSQY 20 SLAY-screened peptide P2754 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGCGCCCGTAGCTATTGGGGCCCGTTTTATTTGCTTGACAACGTTACGTCCCAGTATTAA CRARSYWGPFYLLDNVTSQY* -1.605 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24405 AGTRAAGTSDDISYSPIECL 20 SLAY-screened peptide P2755 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGGTACCCGTGCGGCCGGTACCTCGGATGATATTAGTTACAGCCCTATTGAGTGCCTCTAA AGTRAAGTSDDISYSPIECL* -1.604 0.018948 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24406 PIKASPMTNYWATSNPLDDI 20 SLAY-screened peptide P2756 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATTAAGGCGTCCCCTATGACGAATTACTGGGCCACCAGCAATCCCCTTGATGACATCTAA PIKASPMTNYWATSNPLDDI* -1.604 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24407 HSPTLYPRGDTNCRPPAASV 20 SLAY-screened peptide P2757 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAGCCCGACCCTGTATCCGCGCGGTGACACTAATTGTCGGCCGCCCGCTGCCAGCGTGTAA HSPTLYPRGDTNCRPPAASV* -1.604 0.001656 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24408 CESTSGFERFFYISSNNPVI 20 SLAY-screened peptide P2758 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGAGTCCACCTCTGGCTTTGAGCGGTTCTTTTACATTTCTTCCAATAACCCCGTTATCTAA CESTSGFERFFYISSNNPVI* -1.604 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24409 RSIFSVERLISNKPHHLQIF 20 SLAY-screened peptide P2759 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTCTATCTTTTCGGTGGAGCGGCTGATCTCCAATAAGCCTCACCACCTTCAGATTTTCTAA RSIFSVERLISNKPHHLQIF* -1.603 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24410 HCFHLMASNPTTSVAPSRRS 20 SLAY-screened peptide P2760 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGTTTTCATCTTATGGCCTCCAACCCTACCACCAGCGTTGCGCCTTCTAGGCGGTCCTAA HCFHLMASNPTTSVAPSRRS* -1.602 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24411 CSAPRDKPYEPHPANSPYTN 20 SLAY-screened peptide P2761 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAGCGCGCCGCGCGACAAGCCTTACGAGCCGCATCCGGCCAACTCCCCTTATACGAACTAA CSAPRDKPYEPHPANSPYTN* -1.601 0.035271 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24412 IVINCNFVNI 10 SLAY-screened peptide P2762 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGTTATTAATTGTAACTTCGTTAATATCTAGATGGCCACTTGGCAGTAGTTCAGTACTTAA IVINCNFVNI*MATWQ*FST* -1.601 0.000559 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24413 AEGINKYLGTK 11 SLAY-screened peptide P2763 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGAGGGGATCAACAAGTATCTCGGTACCAAGTAGTACACTCGTGTTTGTGCCGAGCACTAA AEGINKYLGTK*YTRVCAEH* -1.601 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24414 PPANMSS 7 SLAY-screened peptide P2764 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCGCCAATATGTCTAGCTAGGTTTCTGATTTTCTGTCCGGTCGGGCGCTGCGGAGGTAA PPANMSS*VSDFLSGRALRR* -1.6 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24415 PHNSSFRPRIRESSGFGNLS 20 SLAY-screened peptide P2765 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCATAACTCCTCCTTCCGGCCGCGTATCCGCGAGTCCAGCGGCTTTGGCAATCTGTCTTAA PHNSSFRPRIRESSGFGNLS* -1.6 0.00276 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24416 VRMCAATWYMPS 12 SLAY-screened peptide P2766 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCGTATGTGCGCTGCGACTTGGTACATGCCCAGTTAGATTCACGTGATGGTCATCCGGTAA VRMCAATWYMPS*IHVMVIR* -1.6 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24417 LMPTLSLIRCGTVLNRQPPS 20 SLAY-screened peptide P2767 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGATGCCCACCCTTAGTCTCATTCGCTGCGGGACTGTGCTCAATCGGCAGCCCCCTAGTTAA LMPTLSLIRCGTVLNRQPPS* -1.6 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24418 DRADFSCDHYSYHFLHYTSI 20 SLAY-screened peptide P2768 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCGTGCCGACTTTTCCTGCGACCATTACAGTTACCATTTTCTGCACTACACTTCCATCTAA DRADFSCDHYSYHFLHYTSI* -1.6 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24419 EAVGVYMNPYSLRPCELYLI 20 SLAY-screened peptide P2769 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGCTGTCGGCGTCTACATGAATCCGTATAGTTTGCGTCCTTGTGAGCTTTATCTCATCTAA EAVGVYMNPYSLRPCELYLI* -1.6 0.026238 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24420 NVHNDMGN 8 SLAY-screened peptide P2770 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGTCCACAACGACATGGGTAACTAGCTGCTTTTGTACACTAAGAACACTTAGGATCTGTAA NVHNDMGN*LLLYTKNT*DL* -1.6 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24421 SRHMCANAVDIMPLGSNVHR 20 SLAY-screened peptide P2771 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGGCATATGTGCGCTAACGCTGTTGATATCATGCCTCTCGGGAGTAATGTGCATCGGTAA SRHMCANAVDIMPLGSNVHR* -1.599 0.001738 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24422 SNTSSHGIPMRCMSIMRLASN 21 SLAY-screened peptide P2772 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAACACGAGTTCTCATGGGATTCCTATGCGCTGTATGTCTATTATGAGATTAGCATCTAAC SNTSSHGIPMRCMSIMRLASN -1.599 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24423 EVLPVEPPTRHIGNCKTSQY 20 SLAY-screened peptide P2773 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGTGTTGCCTGTGGAGCCTCCTACTCGGCACATTGGGAATTGTAAGACTAGCCAGTACTAA EVLPVEPPTRHIGNCKTSQY* -1.599 0.010247 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24424 CYIGLTWIRISPLCYLSNTH 20 SLAY-screened peptide P2774 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTATATTGGCCTGACCTGGATTAGGATTAGTCCTCTCTGCTATCTGTCGAACACTCATTAA CYIGLTWIRISPLCYLSNTH* -1.599 0.018239 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24425 MHFISLRRTPSCPVPNNFPH 20 SLAY-screened peptide P2775 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCACTTCATCTCCTTGCGCCGCACTCCGTCGTGCCCTGTGCCTAACAATTTTCCCCATTAA MHFISLRRTPSCPVPNNFPH* -1.599 0.034069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24426 PTSTNEKLTWNRNIPPHRRN 20 SLAY-screened peptide P2776 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACGAGCACCAATGAGAAGCTGACGTGGAACCGTAACATTCCTCCTCACCGTAGGAACTAA PTSTNEKLTWNRNIPPHRRN* -1.599 0.033001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24427 ATNAYNVSHSGNRSLFGDEV 20 SLAY-screened peptide P2777 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTACGAATGCTTACAATGTCAGTCATAGTGGCAACCGCTCCTTGTTCGGGGATGAGGTTTAA ATNAYNVSHSGNRSLFGDEV* -1.598 0.003019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24428 CCHTDILIPYAHSTWYHDHH 20 SLAY-screened peptide P2778 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTGCCACACCGACATTCTCATTCCCTATGCTCATTCTACGTGGTACCATGACCATCACTAA CCHTDILIPYAHSTWYHDHH* -1.598 0.033525 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24429 IRNRSHCYLSLSDHSDLPCT 20 SLAY-screened peptide P2779 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCGTAACCGTTCCCACTGCTACCTTTCTCTTTCTGACCACAGCGACTTGCCGTGTACCTAA IRNRSHCYLSLSDHSDLPCT* -1.598 0.002458 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24430 FGA 3 SLAY-screened peptide P2780 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGGTGCCTAGCGTTGCGCCAATAGCATTATCCGCCCTACTCTCCTGCGGACGAGCCATTAA FGA*RCANSIIRPTLLRTSH* -1.598 0.028784 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24431 EIDDRRGFNSLNQPNHKSRS 20 SLAY-screened peptide P2781 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGATTGATGATCGCCGTGGGTTTAATTCGCTCAACCAGCCGAATCACAAGTCCCGTTCCTAA EIDDRRGFNSLNQPNHKSRS* -1.598 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24432 IIKAFLETMYNRNMAHCNPA 20 SLAY-screened peptide P2782 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTATTAAGGCCTTCCTTGAGACTATGTACAATCGGAATATGGCTCATTGCAACCCTGCTTAA IIKAFLETMYNRNMAHCNPA* -1.598 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24433 RACINASTTYCTKSS 15 SLAY-screened peptide P2783 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCTTGCATTAATGCGTCGACTACTTACTGTACCAAGTCGTCGTAGTTCCATTATTCTTAA RACINASTTYCTKSS*FHYS* -1.597 0.00137 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24434 PSACINPNQN 10 SLAY-screened peptide P2784 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCCGCCTGTATTAATCCTAATCAGAATTAGGCTACCAATTGCCGGTTCAAGGGTGTGTAA PSACINPNQN*ATNCRFKGV* -1.597 0.000298 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24435 LL 2 SLAY-screened peptide P2785 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCTTTAGCATAGGCCGCCCATCGTCGTTGTAATGCTGTTTATTGTAGGTCCAAGATCTAAC LL*HRPPIVVVMLFIVGPRSN -1.597 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24436 LCPTSTVDRHYDYNVPMWNE 20 SLAY-screened peptide P2786 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTGCCCGACGTCGACCGTTGATAGGCACTATGACTACAATGTCCCTATGTGGAACGAGTAA LCPTSTVDRHYDYNVPMWNE* -1.596 0.006591 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24437 RCSPVFIYFPHFDAVSNVLV 20 SLAY-screened peptide P2787 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTGTAGCCCCGTGTTCATTTATTTTCCCCATTTCGACGCGGTTTCTAACGTTCTCGTTTAA RCSPVFIYFPHFDAVSNVLV* -1.596 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24438 HYMFPTVFARSNISHPHPPN 20 SLAY-screened peptide P2788 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTACATGTTCCCCACTGTCTTTGCCCGTTCCAATATTTCGCATCCCCATCCTCCGAACTAA HYMFPTVFARSNISHPHPPN* -1.596 0.016863 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24439 TKANANLYPPPNITLPMYMR 20 SLAY-screened peptide P2789 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGAAGGCCAATGCTAATCTCTACCCTCCTCCTAATATTACGTTGCCCATGTACATGCGCTAA TKANANLYPPPNITLPMYMR* -1.596 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24440 TVRTPTNCVHRLACPAV 17 SLAY-screened peptide P2790 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGTTCGTACCCCCACTAATTGTGTCCATCGTTTGGCTTGCCCGGCTGTTTAGAGTACTTAA TVRTPTNCVHRLACPAV*ST* -1.595 0.003792 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24441 YA 2 SLAY-screened peptide P2791 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGCCTAGACGCAGTTGCTTACGTGTACCTCTAGCCATACCACCGAGAACGCTAAGTACTAA YA*TQLLTCTSSHTTENAKY* -1.595 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24442 PVIIIIHESGNV 12 SLAY-screened peptide P2792 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTTATCATCATTATTCACGAGTCCGGTAATGTTTAGGCCTGCACGGTCTATGTTTCCTAA PVIIIIHESGNV*ACTVYVS* -1.595 0.000979 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24443 FTHYHI 6 SLAY-screened peptide P2793 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTACTCACTACCATATTTAGAAGACCTCTTCTTTTGAGCCCCGTCTCGGGACGAGTAACTAA FTHYHI*KTSSFEPRLGTSN* -1.595 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24444 IWHRILMSLSPAARLLRGRSN 21 SLAY-screened peptide P2794 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTGGCATCGAATACTCATGAGCTTAAGCCCAGCCGCACGACTACTGCGCGGTCGGTCTAAC IWHRILMSLSPAARLLRGRSN -1.595 0.024526 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24445 PSWGCWDHFHAWANLPINIT 20 SLAY-screened peptide P2795 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCCTGGGGCTGTTGGGATCACTTCCATGCTTGGGCTAACTTGCCTATCAATATCACCTAA PSWGCWDHFHAWANLPINIT* -1.595 0.010987 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24446 TLKCQRYQFVQIRKLSNPYI 20 SLAY-screened peptide P2796 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTTGAAGTGCCAGCGGTATCAGTTCGTCCAGATCAGGAAGTTGAGCAACCCTTACATTTAA TLKCQRYQFVQIRKLSNPYI* -1.595 0.006175 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24447 LTWRPSFRNRFLWNVMDPCR 20 SLAY-screened peptide P2797 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCACCTGGCGCCCCTCGTTCCGCAACCGCTTCCTGTGGAACGTCATGGACCCTTGTCGCTAA LTWRPSFRNRFLWNVMDPCR* -1.594 0.000106 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24448 LVQLPTPLITRGLFHLNL 18 SLAY-screened peptide P2798 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGTCCAGCTCCCGACTCCGCTTATCACTCGTGGCCTGTTTCACCTCAACCTGTAGGCGTAA LVQLPTPLITRGLFHLNL*A* -1.594 0.000516 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24449 LKSRRAPCVSIYPRCRYYYF 20 SLAY-screened peptide P2799 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAAGTCTCGCCGCGCGCCCTGCGTCTCCATCTACCCTCGGTGTCGCTATTATTACTTCTAA LKSRRAPCVSIYPRCRYYYF* -1.594 0.008347 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24450 PALPMMLRNYYTVMMECHMM 20 SLAY-screened peptide P2800 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCCCTCCCTATGATGCTCCGTAATTACTATACTGTCATGATGGAGTGTCACATGATGTAA PALPMMLRNYYTVMMECHMM* -1.594 0.036681 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24451 FLNNLNKNCPSNRSHNAWPY 20 SLAY-screened peptide P2801 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCTTAATAATCTTAATAAGAATTGTCCTTCGAATCGTTCTCATAATGCTTGGCCTTATTAA FLNNLNKNCPSNRSHNAWPY* -1.594 0.004408 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24452 IQGLSTLKV 9 SLAY-screened peptide P2802 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCAGGGTCTGTCGACTCTTAAGGTCTAGCCGTACCGCCTTGCGGGCGCCGCCTATTGTTAA IQGLSTLKV*PYRLAGAAYC* -1.593 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24453 SCGITTNRRAHITDSHARWN 20 SLAY-screened peptide P2803 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGCGGTATTACGACCAACAGGCGTGCTCATATTACGGATAGCCATGCCAGGTGGAATTAA SCGITTNRRAHITDSHARWN* -1.593 0.007256 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24454 LPLRSCHQL 9 SLAY-screened peptide P2804 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCGCTTCGCAGCTGTCATCAGCTTTAGATCCTCAACACCCTTAACCTTACCTCCAACTAA LPLRSCHQL*ILNTLNLTSN* -1.592 0.002019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24455 ENHMDRADLTDVPSFTCGLL 20 SLAY-screened peptide P2805 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAACCATATGGACCGGGCCGATCTCACCGACGTTCCCTCTTTTACGTGCGGCTTGCTGTAA ENHMDRADLTDVPSFTCGLL* -1.592 0.030523 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24456 GYPG 4 SLAY-screened peptide P2806 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTATCCGGGCTAGTTCTCCTATACGCTTTCCGTTCAGTGTATTCTTAGCGTTGGGATCTAA GYPG*FSYTLSVQCILSVGI* -1.592 0.000312 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24457 VAHYTPSPFTYLPASTMYTN 20 SLAY-screened peptide P2807 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGCGCACTACACTCCGTCGCCTTTTACTTACCTGCCGGCTAGTACTATGTATACCAATTAA VAHYTPSPFTYLPASTMYTN* -1.591 0.006409 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24458 PQRGRAFGLRMPSMLAPSVFN 21 SLAY-screened peptide P2808 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCAGAGGGGACGAGCTTTTGGTCTTAGAATGCCATCGATGCTAGCCCCATCTGTATTTAAC PQRGRAFGLRMPSMLAPSVFN -1.591 0.015781 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24459 SRGTPSNAIYFHLLRDQSLN 20 SLAY-screened peptide P2809 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGTGGTACGCCCAGTAACGCCATCTATTTTCACCTTTTGCGTGACCAGTCCCTCAACTAA SRGTPSNAIYFHLLRDQSLN* -1.591 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24460 AHD 3 SLAY-screened peptide P2810 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCATGATTAGCTCACGACTCACAATTACCAGTACACTCGTTACATTTATTGTCATTATTAA AHD*LTTHNYQYTRYIYCHY* -1.591 0.000177 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24461 TRFWQICTNSNLRTLRWNRP 20 SLAY-screened peptide P2811 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCGGTTTTGGCAGATCTGCACGAATAGTAACCTTCGTACCCTGCGGTGGAACCGCCCCTAA TRFWQICTNSNLRTLRWNRP* -1.591 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24462 RPTA 4 SLAY-screened peptide P2812 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCCACGGCGTAGTCCACCGTTCGGGCCGCGCAGCAGAACCTCCATCCCTCTCACCCGTAA RPTA*STVRAAQQNLHPSHP* -1.591 0.016473 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24463 SKRRFVSTTCPRNSHISDST 20 SLAY-screened peptide P2813 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAAGCGCCGCTTTGTCAGCACGACCTGCCCCCGCAACTCTCATATTTCGGATTCCACGTAA SKRRFVSTTCPRNSHISDST* -1.59 0.018586 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24464 LQYRRHSHLFKGVGLSPSTY 20 SLAY-screened peptide P2814 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCAGTACCGTCGCCACTCCCACTTGTTTAAGGGTGTTGGCTTGTCCCCCTCTACTTACTAA LQYRRHSHLFKGVGLSPSTY* -1.59 0.002677 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24465 NAATDDTLTLRWPSPRPSNT 20 SLAY-screened peptide P2815 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGCCGCCACGGACGATACGCTTACGCTCCGTTGGCCCTCGCCTCGCCCTTCCAATACGTAA NAATDDTLTLRWPSPRPSNT* -1.59 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24466 PFYSETPILTHSCNTLYFAM 20 SLAY-screened peptide P2816 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTTCTATTCCGAGACCCCCATTTTGACTCACAGTTGCAATACCTTGTATTTCGCCATGTAA PFYSETPILTHSCNTLYFAM* -1.59 0.026751 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24467 HHMTYTDVTNAKCTRLMVVT 20 SLAY-screened peptide P2817 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCACATGACCTATACTGATGTTACTAATGCCAAGTGCACGCGTTTGATGGTCGTCACCTAA HHMTYTDVTNAKCTRLMVVT* -1.59 0.032556 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24468 SWTTPKGLSCRPGRSYPYS 19 SLAY-screened peptide P2818 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGGACCACTCCCAAGGGCCTGTCGTGCCGCCCGGGCCGCTCTTATCCGTATAGTTAGTAA SWTTPKGLSCRPGRSYPYS** -1.59 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24469 CPTDATLTPISHNS 14 SLAY-screened peptide P2819 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCCACTGATGCGACTCTCACTCCCATTAGCCATAATTCTTAGATGAATTGGCCTATCTAA CPTDATLTPISHNS*MNWPI* -1.59 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24470 PIGHIWNGSTIVFHNCRFGS 20 SLAY-screened peptide P2820 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATTGGCCATATCTGGAATGGTTCTACTATCGTCTTTCATAACTGCCGCTTTGGGAGTTAA PIGHIWNGSTIVFHNCRFGS* -1.589 0.001867 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24471 VHPSHGSSSTAHNYTAPRTT 20 SLAY-screened peptide P2821 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCACCCGAGTCATGGTAGCTCTTCGACGGCGCACAATTATACCGCTCCGCGGACTACTTAA VHPSHGSSSTAHNYTAPRTT* -1.589 0.008466 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24472 FMPVLLILFPLTCPCTRHQS 20 SLAY-screened peptide P2822 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTATGCCGGTGCTCCTTATCCTCTTTCCCCTGACCTGTCCTTGCACGCGCCATCAGAGTTAA FMPVLLILFPLTCPCTRHQS* -1.588 0.000482 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24473 NFYIAEPRKCHGFLLNMRGS 20 SLAY-screened peptide P2823 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTTTTACATCGCGGAGCCTCGCAAGTGTCATGGTTTCCTCCTCAATATGCGTGGCTCTTAA NFYIAEPRKCHGFLLNMRGS* -1.588 0.001563 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24474 SKSPPNYCCP 10 SLAY-screened peptide P2824 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAAGTCGCCTCCGAACTACTGTTGCCCCTAGTACCGCGACGCGAATGACCTGTTGAGGTAA SKSPPNYCCP*YRDANDLLR* -1.588 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24475 QDGYTSSEDQSSIYRHNLKN 20 SLAY-screened peptide P2825 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGACGGTTACACGTCTAGTGAGGATCAGTCTAGTATTTACCGCCACAACCTTAAGAATTAA QDGYTSSEDQSSIYRHNLKN* -1.588 0.024643 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24476 QNK 3 SLAY-screened peptide P2826 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAACAAGTAGTATTGCACTTATGCGATTTTGTTTAACATTTATAACCACATACTTAGTAAC QNK*YCTYAILFNIYNHILSN -1.588 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24477 PLRDFLIRRLIGVTSRRHNT 20 SLAY-screened peptide P2827 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCCGTGACTTCCTTATTCGGCGCCTTATTGGCGTGACCAGTAGGCGGCACAATACTTAA PLRDFLIRRLIGVTSRRHNT* -1.588 0.003921 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24478 TGLGGLTDYNLLAITYDCLL 20 SLAY-screened peptide P2828 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGGTCTTGGGGGGCTTACTGACTACAACCTGCTCGCTATTACTTACGACTGTTTGCTGTAA TGLGGLTDYNLLAITYDCLL* -1.587 0.020983 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24479 FNKWPVCSLHPGRCVNLMTP 20 SLAY-screened peptide P2829 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTAACAAGTGGCCCGTCTGTTCGTTGCATCCTGGCCGTTGTGTGAACCTCATGACCCCTTAA FNKWPVCSLHPGRCVNLMTP* -1.587 0.046316 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24480 SALALCPSVSLSVE 14 SLAY-screened peptide P2830 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGCACTTGCTTTATGCCCATCGGTGTCCCTGTCAGTTGAGTGACTATTATGCTTATTAACT SALALCPSVSLSVE*LLCLLT -1.587 0.0001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24481 FAARVVVCGPTNNTAVSIRI 20 SLAY-screened peptide P2831 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGCGGCGCGCGTGGTCGTCTGTGGTCCCACCAACAACACCGCCGTCTCCATTCGGATCTAA FAARVVVCGPTNNTAVSIRI* -1.587 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24482 IMTMSEYSFNSSVHSNHYYLT 21 SLAY-screened peptide P2832 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTATGACTATGTCGGAGTATTCGTTCAACAGTTCCGTCCATTCGAACCACTATTATTTAACT IMTMSEYSFNSSVHSNHYYLT -1.587 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24483 KPAAEPPIVNGGNNYSRQYS 20 SLAY-screened peptide P2833 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCCGGCTGCTGAGCCGCCCATTGTGAATGGCGGTAACAACTACTCGCGGCAGTATTCTTAA KPAAEPPIVNGGNNYSRQYS* -1.586 0.000179 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24484 MLWWTHKYYDWLA 13 SLAY-screened peptide P2834 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCTGTGGTGGACCCATAAGTATTATGATTGGCTTGCGTAGTCCTACCGTGGCCGCTAGTAA MLWWTHKYYDWLA*SYRGR** -1.586 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24485 NDATIGGETVSPRVHGNNSI 20 SLAY-screened peptide P2835 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGACGCCACCATTGGGGGCGAGACTGTTTCGCCTAGGGTTCATGGGAATAACAGTATTTAA NDATIGGETVSPRVHGNNSI* -1.586 0.02355 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24486 PWCPASQINHFPNNRGATST 20 SLAY-screened peptide P2836 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGGTGTCCTGCGTCTCAGATTAATCACTTTCCTAATAACAGGGGCGCTACCTCCACCTAA PWCPASQINHFPNNRGATST* -1.586 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24487 INPIDRHTCDNPLYYIISHF 20 SLAY-screened peptide P2837 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAATCCGATTGACAGGCACACCTGCGATAATCCCCTTTACTACATTATCAGTCACTTCTAA INPIDRHTCDNPLYYIISHF* -1.585 0.011167 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24488 ITIFTRSDFNHRTSYALIPA 20 SLAY-screened peptide P2838 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTACCATTTTCACTCGCTCCGATTTCAATCATCGCACTAGTTACGCTCTCATCCCCGCCTAA ITIFTRSDFNHRTSYALIPA* -1.585 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24489 QRVCPKAPRIRAPPHTLHTW 20 SLAY-screened peptide P2839 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCGGGTCTGTCCGAAGGCTCCGCGTATCCGTGCCCCGCCTCACACTCTGCACACTTGGTAA QRVCPKAPRIRAPPHTLHTW* -1.585 0.009614 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24490 YLSGLRRFYYIWRYLGKTIS 20 SLAY-screened peptide P2840 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCTCAGCGGCCTTAGGCGGTTTTATTATATCTGGCGTTACCTCGGGAAGACTATCAGTTAA YLSGLRRFYYIWRYLGKTIS* -1.585 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24491 SSRTSGTIENTRHPLTIIVR 20 SLAY-screened peptide P2841 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTCGCGTACCTCGGGTACTATTGAGAACACTCGTCATCCCTTGACCATTATTGTCAGGTAA SSRTSGTIENTRHPLTIIVR* -1.585 0.000087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24492 SSVNLTALFTVNSGNTCSVR 20 SLAY-screened peptide P2842 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTCCGTTAATCTGACTGCCCTGTTCACCGTGAATAGCGGTAACACCTGCTCGGTTCGTTAA SSVNLTALFTVNSGNTCSVR* -1.585 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24493 PSRSVNHYDRIDFCIHRAII 20 SLAY-screened peptide P2843 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCGCGCTCCGTTAACCATTACGATCGTATCGACTTCTGCATCCACCGTGCCATTATCTAA PSRSVNHYDRIDFCIHRAII* -1.585 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24494 TNRLPETCHHYCVHPRYLKN 20 SLAY-screened peptide P2844 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGAACCGTCTGCCTGAGACCTGTCATCATTACTGTGTCCACCCCCGGTACCTCAAGAATTAA TNRLPETCHHYCVHPRYLKN* -1.584 0.010822 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24495 CSPFHTDLFTLL 12 SLAY-screened peptide P2845 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTCGCCCTTTCACACTGACCTTTTTACGCTCCTTTAGCCTGTTCGCCTGAATTGTAATTAA CSPFHTDLFTLL*PVRLNCN* -1.584 0.00156 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24496 LSHPAPQPSSDRSNQLEVPY 20 SLAY-screened peptide P2846 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGAGCCACCCTGCCCCTCAGCCTAGCAGCGATCGCTCGAATCAGCTCGAGGTTCCGTATTAA LSHPAPQPSSDRSNQLEVPY* -1.584 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24497 CHKTSPKGEHDISYTQTPHH 20 SLAY-screened peptide P2847 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCACAAGACCTCGCCCAAGGGTGAGCACGATATCAGTTACACGCAGACCCCCCACCACTAA CHKTSPKGEHDISYTQTPHH* -1.584 0.000255 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24498 SSVCRPFSQFMYAHVNSFAV 20 SLAY-screened peptide P2848 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAGTGTCTGCCGTCCTTTTAGCCAGTTCATGTACGCTCATGTCAATTCCTTCGCTGTCTAA SSVCRPFSQFMYAHVNSFAV* -1.584 0.000349 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24499 LS 2 SLAY-screened peptide P2849 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAGCTAGCCTGATTACAATCAGAGTGTGAATTTGTACTTGCTTTTCATGGATGTTTAGTAA LS*PDYNQSVNLYLLFMDV** -1.583 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24500 YTYCTFTSTHTVICYFPTKR 20 SLAY-screened peptide P2850 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACGTACTGCACCTTTACCTCTACGCACACTGTGATCTGTTATTTCCCCACGAAGCGTTAA YTYCTFTSTHTVICYFPTKR* -1.583 0.019631 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24501 RPVGPMLCHTEVTMLIIRTN 20 SLAY-screened peptide P2851 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCTGTCGGTCCTATGCTGTGCCATACTGAGGTCACTATGCTTATCATTCGCACTAATTAA RPVGPMLCHTEVTMLIIRTN* -1.583 0.000971 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24502 LS 2 SLAY-screened peptide P2852 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCTTAGCTTGATGATAAGATCGCGTACACTCCGTAGCTGTTTAATAATCGTGATCCCTAA LS*LDDKIAYTP*LFNNRDP* -1.583 0.011105 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24503 SSSRKFRLTSAASAVAPLSN 20 SLAY-screened peptide P2853 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCAGTTCGCGCAAGTTCCGCCTTACGAGCGCGGCCAGTGCCGTGGCCCCGCTGAGCAACTAA SSSRKFRLTSAASAVAPLSN* -1.583 0.008045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24504 CGIEHNNLTLSPFSGSYHIM 20 SLAY-screened peptide P2854 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGGGATTGAGCATAATAATCTTACCCTCTCCCCGTTCAGCGGCTCTTATCATATTATGTAA CGIEHNNLTLSPFSGSYHIM* -1.582 0.013323 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24505 HLLASLG 7 SLAY-screened peptide P2855 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTACTAGCTAGTCTTGGATGAATTAGTCGGCTTTTGGGGTCCTTGACTATGACAGCTAAC HLLASLG*ISRLLGSLTMTAN -1.582 0.045915 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24506 PTLEHKNWFNFKSALHTNNR 20 SLAY-screened peptide P2856 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACTCTGGAGCATAAGAATTGGTTTAACTTTAAGTCTGCCTTGCACACTAATAATCGCTAA PTLEHKNWFNFKSALHTNNR* -1.582 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24507 TAPSYPHINNHKS 13 SLAY-screened peptide P2857 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCCCCGTCTTATCCTCATATTAACAATCACAAGAGTTAGGTTCACCACACCATTATCTAA TAPSYPHINNHKS*VHHTII* -1.582 0.004712 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24508 LLLQKAPLASSAHTHCNGPAN 21 SLAY-screened peptide P2858 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTGCTCCAGAAGGCTCCTCTCGCCTCCAGCGCGCACACGCATTGCAACGGGCCCGCTAAC LLLQKAPLASSAHTHCNGPAN -1.582 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24509 LVVYLVSLCSTSSTQFVLYL 20 SLAY-screened peptide P2859 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTGGTCTACCTCGTGTCCCTGTGTTCTACTTCTAGCACCCAGTTCGTGTTGTACCTCTAA LVVYLVSLCSTSSTQFVLYL* -1.581 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24510 CRQTHRKAGRPSYS 14 SLAY-screened peptide P2860 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGGCAGACCCATAGGAAGGCGGGGCGGCCGTCCTATTCCTAGCTGCACATCGATAACTAA CRQTHRKAGRPSYS*LHIDN* -1.581 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24511 APRMHHVTLYPSRDDKFSGT 20 SLAY-screened peptide P2861 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCGCGTATGCACCACGTCACCCTTTACCCTTCGCGTGACGATAAGTTTTCCGGGACGTAA APRMHHVTLYPSRDDKFSGT* -1.581 0.009841 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24512 TVFLKAASYLSVRFMTCYTV 20 SLAY-screened peptide P2862 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGTCTTCCTTAAGGCTGCTAGCTATTTGTCTGTTCGGTTTATGACTTGCTATACCGTTTAA TVFLKAASYLSVRFMTCYTV* -1.581 0.014234 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24513 LVEHMMSKFNNLRNYLRAIS 20 SLAY-screened peptide P2863 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGTGGAGCATATGATGAGCAAGTTCAATAATCTGAGGAATTATTTGCGGGCGATTTCTTAA LVEHMMSKFNNLRNYLRAIS* -1.581 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24514 PVFANSNSFQSWRRNPGFHC 20 SLAY-screened peptide P2864 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTCTTTGCCAACAGTAATAGCTTTCAGAGCTGGCGCCGCAATCCTGGCTTTCACTGCTAA PVFANSNSFQSWRRNPGFHC* -1.581 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24515 TPPNYCAAGFCCPQFPIIGV 20 SLAY-screened peptide P2865 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCTCCTAATTACTGCGCGGCCGGCTTCTGTTGCCCTCAGTTTCCGATTATCGGCGTGTAA TPPNYCAAGFCCPQFPIIGV* -1.58 0.03764 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24516 RGPPVTSIALNLLRSTIACSN 21 SLAY-screened peptide P2866 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGGTCCGCCCGTCACTTCCATTGCCTTGAATCTTCTCAGATCCACAATTGCGTGCTCTAAC RGPPVTSIALNLLRSTIACSN -1.58 0.003196 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24517 HTCTTNPPADLH 12 SLAY-screened peptide P2867 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACCTGTACCACTAACCCTCCCGCCGACCTTCACTAGCATCGTAGTTGTACGCCTGCTTAA HTCTTNPPADLH*HRSCTPA* -1.58 0.000048 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24518 ILCIYRPRRLPSFRIYLGLR 20 SLAY-screened peptide P2868 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCTGTGCATTTACCGTCCCCGGCGTTTGCCTTCCTTTCGCATCTATCTGGGTCTTCGTTAA ILCIYRPRRLPSFRIYLGLR* -1.58 0.000292 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24519 YLTIYSLPFAMSITNVTLIH 20 SLAY-screened peptide P2869 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTTACCATTTATTCTTTGCCCTTTGCGATGTCGATTACTAATGTTACCCTGATTCACTAA YLTIYSLPFAMSITNVTLIH* -1.58 0.000395 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24520 RTSVITNLLVHRYYSTLMPL 20 SLAY-screened peptide P2870 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACTTCTGTCATTACCAACCTCCTTGTTCATAGGTATTATTCCACGTTGATGCCGCTCTAA RTSVITNLLVHRYYSTLMPL* -1.58 0.001705 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24521 RYPPASHPRQAVAYSHSRSM 20 SLAY-screened peptide P2871 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTACCCCCCCGCTTCTCATCCGCGCCAGGCCGTCGCTTATTCCCACAGCAGGAGTATGTAA RYPPASHPRQAVAYSHSRSM* -1.58 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24522 ITYGHLACPSVNRRFLTAST 20 SLAY-screened peptide P2872 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTACGTACGGCCACCTCGCGTGTCCCTCTGTCAATCGTCGGTTCCTCACCGCCTCCACCTAA ITYGHLACPSVNRRFLTAST* -1.579 0.000073 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24523 FYALHNHKFIATNKVKTNDS 20 SLAY-screened peptide P2873 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTATGCTCTGCACAACCATAAGTTCATCGCTACCAATAAGGTGAAGACCAATGATAGTTAA FYALHNHKFIATNKVKTNDS* -1.579 0.000872 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24524 QRTYRASINFGHSYVCYSPF 20 SLAY-screened peptide P2874 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCGTACTTACAGGGCGTCCATCAATTTTGGTCACAGCTATGTGTGCTATTCGCCCTTCTAA QRTYRASINFGHSYVCYSPF* -1.579 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24525 GEHAY 5 SLAY-screened peptide P2875 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGAGCACGCGTACTAGCCTGAGCACTCGTCGAACGTTCAGAAGCGGCTTAGTAGGAGTTAA GEHAY*PEHSSNVQKRLSRS* -1.579 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24526 TSTTFRQPNCTVSLARATLS 20 SLAY-screened peptide P2876 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCTACTACGTTCCGTCAGCCTAATTGCACCGTTAGTCTGGCCCGCGCTACGCTGTCTTAA TSTTFRQPNCTVSLARATLS* -1.578 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24527 HNIAYTKKRAGPLRVLCVGSN 21 SLAY-screened peptide P2877 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAACATTGCCTACACTAAGAAGCGAGCAGGGCCTTTGCGGGTCCTTTGTGTGGGCAGTAAC HNIAYTKKRAGPLRVLCVGSN -1.578 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24528 NISHISKNHS 10 SLAY-screened peptide P2878 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATATCAGTCATATCTCCAAGAATCATTCCTAGATCTGTTGTAGCGGGTTTCCTAACTCCTAA NISHISKNHS*ICCSGFPNS* -1.578 0.004037 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24529 RLRPCDSNSTWWSLNSID 18 SLAY-screened peptide P2879 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCTCCGGCCTTGTGACTCTAATAGCACTTGGTGGAGCCTTAATTCTATCGACTAGGACTAA RLRPCDSNSTWWSLNSID*D* -1.578 0.001922 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24530 TGPYHPLRIIPCSNLYYGIL 20 SLAY-screened peptide P2880 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGCCCGTATCACCCCCTGAGGATCATCCCCTGTTCGAACCTTTACTACGGGATTCTTTAA TGPYHPLRIIPCSNLYYGIL* -1.577 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24531 ATPSGVWPATVLDQSMSPNF 20 SLAY-screened peptide P2881 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGACCCCGTCTGGTGTGTGGCCTGCGACCGTGCTTGATCAGTCCATGTCTCCCAACTTTTAA ATPSGVWPATVLDQSMSPNF* -1.577 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24532 YWDHHCDNDSRINRVHMYLL 20 SLAY-screened peptide P2882 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGGGACCACCATTGTGATAACGACAGCCGTATCAACAGGGTTCATATGTATCTTCTGTAA YWDHHCDNDSRINRVHMYLL* -1.577 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24533 CTHAHQRAISTYTI 14 SLAY-screened peptide P2883 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCACGCATGCCCATCAGCGGGCCATCTCGACTTATACCATATGACCACTCTTCTGCTGTAAC CTHAHQRAISTYTI*PLFCCN -1.577 0.000349 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24534 PLPLLYSPPYYSQIIPCSLL 20 SLAY-screened peptide P2884 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTGCCCTTGCTGTATTCGCCCCCCTACTACTCCCAGATCATTCCCTGTAGCCTTCTCTAA PLPLLYSPPYYSQIIPCSLL* -1.576 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24535 GTNWSTP 7 SLAY-screened peptide P2885 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGACCAACTGGTCTACCCCGTAGTTCAGGGCTCACCCTTATTCTAACACTACTAACCCGTAA GTNWSTP*FRAHPYSNTTNP* -1.576 0.026293 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24536 TQCPPYLTCYVPSIVPYCWV 20 SLAY-screened peptide P2886 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCAGTGCCCCCCGTATCTCACCTGCTATGTGCCTAGTATTGTCCCTTACTGCTGGGTGTAA TQCPPYLTCYVPSIVPYCWV* -1.576 0.027274 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24537 LNRPFNPWVPCFMV 14 SLAY-screened peptide P2887 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAATCGCCCGTTCAATCCTTGGGTTCCCTGTTTTATGGTTTAGCTTTATTGCAGTGACTAA LNRPFNPWVPCFMV*LYCSD* -1.576 0.016877 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24538 HSGRDSMFDD 10 SLAY-screened peptide P2888 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTCCGGCCGCGATTCCATGTTTGACGACTAGATTGACGTGTCTATCGCTCACGTTGGTAAC HSGRDSMFDD*IDVSIAHVGN -1.576 0.000112 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24539 CCPFFTNSPYDHPCIVYARA 20 SLAY-screened peptide P2889 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTGCCCCTTTTTTACCAACTCTCCTTACGATCACCCTTGCATTGTTTACGCTCGTGCCTAA CCPFFTNSPYDHPCIVYARA* -1.576 0.007485 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24540 PTKPPTPTHLILTYPC 16 SLAY-screened peptide P2890 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACCAAGCCGCCTACGCCCACCCACCTGATTCTTACCTATCCCTGTTAGAATGTTTGTTAA PTKPPTPTHLILTYPC*NVC* -1.575 0.005307 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24541 CAPPDIIHLFNATGSNFPEL 20 SLAY-screened peptide P2891 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGCGCCTCCCGATATTATCCATCTGTTCAACGCTACTGGCAGCAATTTTCCGGAGCTTTAA CAPPDIIHLFNATGSNFPEL* -1.575 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24542 NYITAQHAVSERPVRVMLHT 20 SLAY-screened peptide P2892 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTACATCACCGCCCAGCATGCTGTTAGCGAGCGCCCGGTTCGGGTTATGCTTCATACGTAA NYITAQHAVSERPVRVMLHT* -1.574 0.002355 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24543 PSIKCYDQPMHNRPLIYYSA 20 SLAY-screened peptide P2893 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGTATCAAGTGTTATGACCAGCCCATGCATAACCGCCCCCTTATTTACTACAGTGCCTAA PSIKCYDQPMHNRPLIYYSA* -1.574 0.001006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24544 LVPIWRRCSRRSAVNTCISL 20 SLAY-screened peptide P2894 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGTCCCCATTTGGCGTCGTTGTTCCCGTCGCTCTGCTGTCAATACCTGCATTTCTCTGTAG LVPIWRRCSRRSAVNTCISL* -1.574 0.000062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24545 VFPMNDTSHHHLRPVPGGWL 20 SLAY-screened peptide P2895 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTTTCCGATGAACGATACTTCCCACCATCATCTGCGTCCGGTGCCTGGCGGGTGGCTCTAA VFPMNDTSHHHLRPVPGGWL* -1.574 0.000143 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24546 QNFRVPCIHCIVSFLDSFYE 20 SLAY-screened peptide P2896 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAATTTTCGTGTCCCTTGCATTCATTGCATTGTTAGTTTCCTCGACAGCTTTTATGAGTAA QNFRVPCIHCIVSFLDSFYE* -1.574 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24547 CLLS 4 SLAY-screened peptide P2897 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTGCTGTCGTAGTCCTCTTCGAACGGGTGTCGTAACTTCCGCCTCCCTCCCATTCTTTAA CLLS*SSSNGCRNFRLPPIL* -1.574 0.000106 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24548 DPISSIYASQVRLRTVLGSSN 21 SLAY-screened peptide P2898 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCCATTAGCAGCATTTACGCCAGCCAGGTACGATTGCGGACCGTCTTGGGGTCCAGTAAC DPISSIYASQVRLRTVLGSSN -1.574 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24549 GMCSAYRTYLV 11 SLAY-screened peptide P2899 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCATGTGTAGTGCTTATAGGACCTACCTGGTGTAGAATGGCGTTCCCTTGACCATTAAGTAA GMCSAYRTYLV*NGVPLTIK* -1.573 0.000269 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24550 LTATRPYRPP 10 SLAY-screened peptide P2900 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGACCGCGACGCGCCCGTATCGCCCGCCGTAGCGCAACAGCGTTAGGGTTAAGTACACTTAA LTATRPYRPP*RNSVRVKYT* -1.573 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24551 LYRNSVLLKASL 12 SLAY-screened peptide P2901 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTATCGGAATAGCGTCCTTCTTAAGGCTAGCTTGTAGTGGCACTTTTGTTATATCGGCTAA LYRNSVLLKASL*WHFCYIG* -1.573 0.026418 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24552 SFNAYSRVYSDCYYIHGVAG 20 SLAY-screened peptide P2902 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTTCAATGCTTATTCGCGTGTGTACTCCGATTGCTACTATATCCACGGCGTCGCTGGCTAA SFNAYSRVYSDCYYIHGVAG* -1.573 0.022601 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24553 IRNTFLLRRDRMPGAYDSLP 20 SLAY-screened peptide P2903 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAGGAATACGTTCCTTTTGCGGCGGGATCGCATGCCGGGGGCCTATGACTCTCTTCCGTAA IRNTFLLRRDRMPGAYDSLP* -1.573 0.003593 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24554 SLKPTGTTRACFQPVISLA 19 SLAY-screened peptide P2904 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCTCAAGCCTACGGGTACGACTCGGGCTTGCTTCCAGCCCGTCATTAGCCTGGCGTAGTAA SLKPTGTTRACFQPVISLA** -1.573 0.000465 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24555 VAPGAGFPIRDMVHSRTSHI 20 SLAY-screened peptide P2905 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGGCCCCTGGGGCCGGGTTTCCCATTCGGGATATGGTTCACTCCCGCACCTCCCATATTTAA VAPGAGFPIRDMVHSRTSHI* -1.573 0.004701 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24556 RSRGVINKTYSRNAHVHFRN 20 SLAY-screened peptide P2906 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTCGCGCGGGGTTATTAACAAGACGTATTCGCGCAACGCCCATGTTCACTTTCGCAATTAA RSRGVINKTYSRNAHVHFRN* -1.573 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24557 SRPDGARHNFHSRPIL 16 SLAY-screened peptide P2907 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCGGCCTGACGGGGCCCGCCATAATTTCCATAGTCGCCCAATACTCTGAGTAAGTCGACCT SRPDGARHNFHSRPIL*VSRP -1.573 0.008011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24558 TVTLGRAIPLPANNP 15 SLAY-screened peptide P2908 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTGACGCTCGGCCGTGCCATTCCCCTTCCTGCCAACAACCCTTAGGATTGCTACCTGTAA TVTLGRAIPLPANNP*DCYL* -1.573 0.023582 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24559 PCLMCQSYAPGVGCIFLATL 20 SLAY-screened peptide P2909 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGCCTCATGTGTCAGTCCTACGCCCCCGGTGTTGGTTGCATTTTCCTGGCCACCCTGTAA PCLMCQSYAPGVGCIFLATL* -1.572 0.035008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24560 CEWDLPCRRRAHTDRKAGNP 20 SLAY-screened peptide P2910 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGAGTGGGACCTGCCTTGTCGGCGTCGTGCTCATACCGACCGCAAGGCGGGTAACCCTTAA CEWDLPCRRRAHTDRKAGNP* -1.572 0.022776 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24561 IGGYSPSDATYTIVCFMPNGT 21 SLAY-screened peptide P2911 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGGAGGATACAGCCCGTCCGATGCTACTTACACTATTGTTTGCTTTATGCCCAACGGTACG IGGYSPSDATYTIVCFMPNGT -1.572 0.026346 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24562 TLKKIKRVVHYLCDWCNHHW 20 SLAY-screened peptide P2912 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTCAAGAAGATCAAGCGCGTTGTGCACTACTTGTGCGACTGGTGTAACCACCATTGGTAA TLKKIKRVVHYLCDWCNHHW* -1.572 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24563 CFLSSLIPSRPSLDIGCAHE 20 SLAY-screened peptide P2913 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTTTCTTTCTTCTCTCATCCCTAGCAGGCCCTCCCTGGACATTGGTTGCGCTCATGAGTAA CFLSSLIPSRPSLDIGCAHE* -1.572 0.001701 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24564 RAHYIYSTANSL 12 SLAY-screened peptide P2914 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGCCCACTATATTTACTCCACCGCCAACAGTCTCTAGTTTACTTTCGAGACGTTGGACTAA RAHYIYSTANSL*FTFETLD* -1.572 0.007449 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24565 PNTSIVLCHLSRAIYLYRLP 20 SLAY-screened peptide P2915 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAACACTTCCATCGTTCTCTGTCACCTCTCTCGCGCGATTTATTTGTACCGCCTTCCTTAA PNTSIVLCHLSRAIYLYRLP* -1.572 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24566 LTSHCQDADCHDMHEPAINI 20 SLAY-screened peptide P2916 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACGTCGCACTGCCAGGATGCTGACTGCCATGATATGCATGAGCCCGCCATTAACATTTAA LTSHCQDADCHDMHEPAINI* -1.571 0.024421 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24567 WPGSFRCYPSMHDLSLNPHP 20 SLAY-screened peptide P2917 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCTGGCAGTTTTCGTTGCTACCCGAGCATGCACGACCTCTCTCTTAACCCCCATCCCTAA WPGSFRCYPSMHDLSLNPHP* -1.571 0.000026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24568 PISKMAINATWIGHDDRWTY 20 SLAY-screened peptide P2918 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATTTCTAAGATGGCTATTAATGCGACTTGGATCGGGCATGACGACCGCTGGACCTACTAA PISKMAINATWIGHDDRWTY* -1.571 0.001038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24569 PPIPVALQCDVHPFVVTPR 19 SLAY-screened peptide P2919 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCGATCCCTGTGGCGCTGCAGTGCGACGTTCACCCTTTCGTGGTCACCCCCCGCTAGTGT PPIPVALQCDVHPFVVTPR*C -1.57 0.023995 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24570 CSRFVLAARTYTFEDAT 17 SLAY-screened peptide P2920 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAGCCGCTTCGTGTTGGCGGCGAGGACGTACACGTTCGAGGATGCTACCTAGTAGTACTAA CSRFVLAARTYTFEDAT**Y* -1.57 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24571 RSTAQTYRRLADRYMLSFC 19 SLAY-screened peptide P2921 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCTACCGCCCAGACCTACCGTCGCCTTGCTGATCGCTACATGTTGTCCTTTTGTTAGTAA RSTAQTYRRLADRYMLSFC** -1.57 0.024691 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24572 TTYGRCLRLSAAPTFPGWGS 20 SLAY-screened peptide P2922 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACCTACGGTCGGTGCCTCCGTCTCAGTGCGGCTCCCACCTTTCCTGGCTGGGGTTCGTAA TTYGRCLRLSAAPTFPGWGS* -1.57 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24573 PKPACIH 7 SLAY-screened peptide P2923 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAAGCCCGCGTGTATCCACTAGATGACGCGCCACGTGAACGTGTTGCTGCCGGACTTCTAA PKPACIH*MTRHVNVLLPDF* -1.569 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24574 TNLPPRTHNHFFCILNMCYP 20 SLAY-screened peptide P2924 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGAACTTGCCGCCGAGGACCCACAACCACTTCTTCTGCATCCTTAACATGTGTTATCCGTAA TNLPPRTHNHFFCILNMCYP* -1.569 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24575 CIHSNHWVEISARSWSSLTRN 21 SLAY-screened peptide P2925 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTATCCACAGTAACCACTGGGTGGAGATAAGTGCCCGCTCTTGGTCCTCTCTGACCCGTAAC CIHSNHWVEISARSWSSLTRN -1.568 0.0122 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24576 WGGWRYRVHPYDSTPSRCNL 20 SLAY-screened peptide P2926 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGGGGGGTTGGCGTTATAGGGTTCACCCCTATGACTCCACGCCCTCCCGGTGTAACCTGTAA WGGWRYRVHPYDSTPSRCNL* -1.568 0.000257 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24577 HVGPTAPTYQYFCPPIYFST 20 SLAY-screened peptide P2927 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGTTGGCCCTACTGCTCCGACCTATCAGTATTTTTGCCCCCCGATTTACTTCTCCACCTAA HVGPTAPTYQYFCPPIYFST* -1.568 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24578 LYCTCPIHTIQCFMTPYLAL 20 SLAY-screened peptide P2928 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTATTGTACTTGCCCTATCCACACCATTCAGTGCTTCATGACCCCGTATTTGGCCCTGTAA LYCTCPIHTIQCFMTPYLAL* -1.567 0.001101 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24579 PAAHFSLR 8 SLAY-screened peptide P2929 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTGCGCATTTTTCGCTTAGGTAGAACTTCCTTAATACGTATTAGTATCCTAATCCCTAA PAAHFSLR*NFLNTY*YPNP* -1.567 0.005837 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24580 LSCTLLISNK 10 SLAY-screened peptide P2930 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTCCTGCACTCTTCTCATTTCTAATAAGTAGGTCATTTCTAGGGACCATCCTATTTATTAA LSCTLLISNK*VISRDHPIY* -1.567 0.009034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24581 SRITQVRCQANRTPNSNKAP 20 SLAY-screened peptide P2931 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGTATCACTCAGGTCCGTTGCCAGGCGAACCGCACCCCCAACTCCAATAAGGCTCCTTAA SRITQVRCQANRTPNSNKAP* -1.566 0.000211 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24582 LTTCPYLQNTPNAPEILLISN 21 SLAY-screened peptide P2932 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGACCACCTGCCCTTACCTCCAGAACACCCCCAATGCCCCGGAGATCCTGTTAATCTCTAAC LTTCPYLQNTPNAPEILLISN -1.566 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24583 VQRRSCSHTLCLSFFIFYSH 20 SLAY-screened peptide P2933 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCAGCGCAGGTCTTGTTCGCACACCCTCTGCCTTTCGTTCTTCATTTTCTACTCCCACTAA VQRRSCSHTLCLSFFIFYSH* -1.566 0.000826 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24584 HTPRVHHIGSSLDLLPTAHT 20 SLAY-screened peptide P2934 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACCCCTCGCGTCCATCACATTGGGTCGTCCCTTGATTTGCTCCCTACGGCGCATACCTAA HTPRVHHIGSSLDLLPTAHT* -1.566 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24585 TGAHEYKGGLARP 13 SLAY-screened peptide P2935 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGCGCTCACGAGTATAAGGGCGGTCTCGCGAGGCCGTAGTTTTGTACTGTCAACATGTAA TGAHEYKGGLARP*FCTVNM* -1.566 0.013085 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24586 PVMVHPRGTTHD 12 SLAY-screened peptide P2936 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTCATGGTCCACCCCAGGGGGACGACGCACGATTAGACCCTTATTACTTTCGGCTAGTAA PVMVHPRGTTHD*TLITFG** -1.566 0.000709 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24587 ARFLYCHRLGHPVPLDSTLN 20 SLAY-screened peptide P2937 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGAGGTTTCTTTATTGTCATCGTCTGGGCCACCCTGTTCCTCTTGACTCCACTCTCAATTAA ARFLYCHRLGHPVPLDSTLN* -1.565 0.029201 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24588 CYYPEYRRIASRHALYLIPR 20 SLAY-screened peptide P2938 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTACTACCCGGAGTATCGTAGGATCGCCAGTCGCCACGCCCTCTACCTTATTCCCCGCTAA CYYPEYRRIASRHALYLIPR* -1.565 0.016209 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24589 QLPPTSLAHTAGGIPYTPPC 20 SLAY-screened peptide P2939 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCTCCCGCCCACTTCTTTGGCCCATACCGCCGGGGGGATCCCCTACACGCCGCCGTGTTAA QLPPTSLAHTAGGIPYTPPC* -1.565 0.000539 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24590 YCPAKSDLDYSARPVFHYHM 20 SLAY-screened peptide P2940 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGCCCGGCCAAGAGCGACCTTGACTATAGTGCTCGGCCTGTCTTCCATTATCATATGTAA YCPAKSDLDYSARPVFHYHM* -1.565 0.007056 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24591 PIHRLHSFLTFELSHVGLRD 20 SLAY-screened peptide P2941 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATCCATCGTCTGCATAGTTTCCTGACCTTCGAGCTCAGTCATGTGGGCCTTCGCGACTAA PIHRLHSFLTFELSHVGLRD* -1.565 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24592 GRDLYPAGSYGAFFWDYHYL 20 SLAY-screened peptide P2942 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCGTGACTTGTACCCCGCGGGCAGTTACGGTGCCTTTTTTTGGGACTATCACTATCTGTAA GRDLYPAGSYGAFFWDYHYL* -1.565 0.049157 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24593 PRHVWRDNLVCIYTSYSTTF 20 SLAY-screened peptide P2943 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGTCATGTCTGGCGTGACAACCTTGTGTGTATTTACACTTCTTACTCGACCACCTTTTAA PRHVWRDNLVCIYTSYSTTF* -1.565 0.000032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24594 CTPNHHDFQLLRASVVSNLP 20 SLAY-screened peptide P2944 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACGCCTAATCACCACGACTTTCAGTTGCTGAGGGCCTCTGTCGTGAGCAACCTCCCCTAA CTPNHHDFQLLRASVVSNLP* -1.564 0.000437 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24595 IVNWKPKILC 10 SLAY-screened peptide P2945 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGTTAACTGGAAGCCCAAGATTTTGTGCTAGGGCCATGACGCGCCGTGTCCCAAGCACTAA IVNWKPKILC*GHDAPCPKH* -1.564 0.001243 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24596 DYNACDHSLSQYRL 14 SLAY-screened peptide P2946 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTATAATGCTTGTGATCATTCCCTTAGCCAGTACCGTTTGTAGGTGAATATCTTGGGCTAA DYNACDHSLSQYRL*VNILG* -1.563 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24597 SSAEPRNSHNPLNSPRLASL 20 SLAY-screened peptide P2947 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAGTGCCGAGCCTCGTAATAGCCATAATCCTCTGAATAGCCCTCGCTTGGCGTCCCTTTAA SSAEPRNSHNPLNSPRLASL* -1.563 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24598 IHDSTRISHSTGNMQAVPRVT 21 SLAY-screened peptide P2948 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCATGATTCCACCCGTATTTCGCATTCTACCGGCAACATGCAGGCCGTCCCACGAGTAACT IHDSTRISHSTGNMQAVPRVT -1.563 0.000102 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24599 PWGSTYTMRQPR 12 SLAY-screened peptide P2949 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGGGGCTCTACCTATACCATGCGGCAGCCTAGGTAGAATGTCTCTCACATGTGTGATTAA PWGSTYTMRQPR*NVSHMCD* -1.563 0.015768 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24600 FRCNRAISCSDPPKVSSGLI 20 SLAY-screened peptide P2950 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCGTTGCAACAGGGCCATCTCTTGCAGTGATCCCCCGAAGGTGTCCTCGGGGCTCATCTAA FRCNRAISCSDPPKVSSGLI* -1.562 0.000507 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24601 KLKATHPLPDMFIISHQHVS 20 SLAY-screened peptide P2951 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCTCAAGGCCACGCACCCTCTGCCCGATATGTTTATCATCTCTCATCAGCACGTTTCTTAA KLKATHPLPDMFIISHQHVS* -1.562 0.00138 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24602 TRYMSRNPTFPVMQTTLRKV 20 SLAY-screened peptide P2952 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCGGTACATGAGTCGTAACCCGACGTTCCCCGTTATGCAGACGACCCTGCGTAAGGTTTAA TRYMSRNPTFPVMQTTLRKV* -1.562 0.034076 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24603 FNSSPGRRPKQRHHVYVSVR 20 SLAY-screened peptide P2953 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAACTCTTCCCCTGGCCGTCGGCCCAAGCAGCGCCATCACGTCTATGTCTCGGTGCGCTAA FNSSPGRRPKQRHHVYVSVR* -1.561 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24604 FRTSSLPALTNHNYACNSTA 20 SLAY-screened peptide P2954 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCGTACGTCTTCCCTGCCTGCCCTCACTAATCACAATTATGCTTGCAATAGTACCGCTTAA FRTSSLPALTNHNYACNSTA* -1.561 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24605 IPKCTSDIYREPFTFALTSN 20 SLAY-screened peptide P2955 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCGAAGTGTACTAGCGATATTTATCGGGAGCCTTTTACTTTTGCCCTTACCTCCAATTAA IPKCTSDIYREPFTFALTSN* -1.561 0.00392 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24606 LPRRVSASFSNSRLRANSNY 20 SLAY-screened peptide P2956 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCCAGGAGGGTGAGTGCTAGTTTCTCTAACAGTCGCTTGCGTGCGAATTCGAACTATTAA LPRRVSASFSNSRLRANSNY* -1.56 0.007999 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24607 LRPTDQLPISSWSGSPSLVQ 20 SLAY-screened peptide P2957 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGCCCCACCGATCAGCTCCCGATTTCTTCCTGGAGCGGGAGTCCTAGTCTGGTTCAGTAA LRPTDQLPISSWSGSPSLVQ* -1.56 0.002454 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24608 FLRCYDCYNDHTASDNSHVL 20 SLAY-screened peptide P2958 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCTTAGGTGTTACGATTGCTACAATGACCATACTGCGTCTGACAATTCTCACGTCCTTTAA FLRCYDCYNDHTASDNSHVL* -1.56 0.000071 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24609 LTYFYTLCTSFRSRITQCVT 20 SLAY-screened peptide P2959 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCACGTACTTCTACACCCTGTGCACGAGTTTCCGCAGTCGGATTACCCAGTGCGTGACTTAA LTYFYTLCTSFRSRITQCVT* -1.56 0.005551 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24610 RAPVLPHTYW 10 SLAY-screened peptide P2960 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGCCCCCGTGCTTCCGCACACCTATTGGTAGGATCTGGAGGGTTCCGTCGTTCAGCATTAA RAPVLPHTYW*DLEGSVVQH* -1.56 0.000503 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24611 CDYCPTEDDYPVAT 14 SLAY-screened peptide P2961 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGACTATTGCCCCACGGAGGACGACTACCCGGTTGCGACCTAGAATGTCCATGCGGGGTAA CDYCPTEDDYPVAT*NVHAG* -1.559 0.000065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24612 IFRNVSITLCFYSTGSKLNY 20 SLAY-screened peptide P2962 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTTTAGGAACGTCTCGATTACGCTGTGCTTCTACTCCACCGGTAGCAAGCTGAACTACTAA IFRNVSITLCFYSTGSKLNY* -1.558 0.000211 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24613 DCRHPTNNVPFKYFRPLFLY 20 SLAY-screened peptide P2963 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTGCAGGCACCCCACGAACAATGTTCCGTTCAAGTACTTCCGCCCCCTTTTTTTGTATTAA DCRHPTNNVPFKYFRPLFLY* -1.558 0.004061 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24614 LPCCLKCLRLTSATDNMALR 20 SLAY-screened peptide P2964 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCCTGTTGCCTGAAGTGTCTGCGGTTGACCAGTGCTACCGACAATATGGCGTTGAGGTAA LPCCLKCLRLTSATDNMALR* -1.558 0.001045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24615 KRTLST 6 SLAY-screened peptide P2965 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCGTACTCTGTCGACCTGACATGAACTACACTGCTAAGTATTTTGGCAACCACGATTAACT KRTLST*HELHC*VFWQPRLT -1.558 0.000237 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24616 RPGA 4 SLAY-screened peptide P2966 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCGGGCGCTTAGTACACGCATCTTCATACCGTCACGCCCGCCACGGATGGTCTCACTTAA RPGA*YTHLHTVTPATDGLT* -1.558 0.000221 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24617 SALPCGLCTTTVNLHKHAFR 20 SLAY-screened peptide P2967 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCGCTGCCCTGCGGGCTGTGTACCACCACCGTGAATCTTCATAAGCATGCCTTCCGGTAA SALPCGLCTTTVNLHKHAFR* -1.558 0.000033 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24618 PCHHLVNKMKKWFVRRRRVR 20 SLAY-screened peptide P2968 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGTCATCATCTCGTTAACAAGATGAAGAAGTGGTTCGTGCGTAGGAGGCGTGTTAGGTAA PCHHLVNKMKKWFVRRRRVR* -1.556 0.032006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24619 PPTGCTTNFHKYNSILSKLI 20 SLAY-screened peptide P2969 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCGACTGGTTGCACCACGAATTTTCACAAGTACAATTCCATTTTGTCCAAGCTGATCTAA PPTGCTTNFHKYNSILSKLI* -1.556 0.02429 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24620 SGINQHIHGTWQLHLAGICV 20 SLAY-screened peptide P2970 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGGCATTAACCAGCATATCCATGGCACCTGGCAGCTTCACTTGGCGGGGATCTGTGTTTAA SGINQHIHGTWQLHLAGICV* -1.556 0.026431 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24621 HFGQHLFARFH 11 SLAY-screened peptide P2971 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTTCGGTCAGCATCTTTTCGCTCGGTTTCACTAGCGGCGGATGCCCACTAAGACGCAGTAA HFGQHLFARFH*RRMPTKTQ* -1.556 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24622 RETSGRTQQSRPC 13 SLAY-screened peptide P2972 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGAGACTTCCGGGCGTACGCAGCAGTCCAGGCCTTGCTAGTACAATAATAACATGGCCTAA RETSGRTQQSRPC*YNNNMA* -1.556 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24623 FDIIHTNHRKLGLTLVPIIL 20 SLAY-screened peptide P2973 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGACATCATTCACACTAACCATAGGAAGCTTGGTCTGACCCTCGTTCCGATTATCTTGTAA FDIIHTNHRKLGLTLVPIIL* -1.555 0.000306 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24624 SINALLLRSIQHWMPISRPS 20 SLAY-screened peptide P2974 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCATCAATGCGCTTTTGCTGCGTAGTATCCAGCACTGGATGCCCATTAGCCGTCCCTCGTAA SINALLLRSIQHWMPISRPS* -1.555 0.01328 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24625 VSNDHPYRNGLALIYLNTNL 20 SLAY-screened peptide P2975 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTAGTAATGACCATCCTTATCGTAATGGCCTCGCCCTGATCTACCTCAACACGAACCTTTAA VSNDHPYRNGLALIYLNTNL* -1.555 0.002712 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24626 TRAFSHMSRYSLTAVCLLVFN 21 SLAY-screened peptide P2976 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCGCGCTTTTTCTCACATGTCGCGGTACTCCTTAACAGCAGTATGTTTACTTGTATTTAAC TRAFSHMSRYSLTAVCLLVFN -1.555 0.006578 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24627 LGVITSFFAMLLPNYMVLLA 20 SLAY-screened peptide P2977 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGGTGTCATCACTAGCTTCTTTGCCATGCTCCTGCCCAATTATATGGTCCTTCTTGCCTAA LGVITSFFAMLLPNYMVLLA* -1.554 0.046954 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24628 RRVNQSPTYVMHRFGHNMRS 20 SLAY-screened peptide P2978 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGCGTCAACCAGAGCCCGACTTATGTCATGCACCGCTTTGGTCACAACATGCGCTCTTAA RRVNQSPTYVMHRFGHNMRS* -1.554 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24629 HL 2 SLAY-screened peptide P2979 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTGTAGGATCACAACAGCCGCGCCACTACGAAGATTGTTCTTGACCATCTCCAGGCTTAA HL*DHNSRATTKIVLDHLQA* -1.554 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24630 PTYSSNGTSAMVHTNGPYLS 20 SLAY-screened peptide P2980 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACGTATTCGAGTAATGGTACTTCGGCCATGGTGCATACGAATGGCCCTTACCTTTCGTAA PTYSSNGTSAMVHTNGPYLS* -1.554 0.013092 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24631 IADILRYVAALRGIHWFPKR 20 SLAY-screened peptide P2981 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCTGACATCCTGAGGTACGTTGCCGCGCTTCGGGGCATTCACTGGTTCCCGAAGCGTTAA IADILRYVAALRGIHWFPKR* -1.554 0.00036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24632 IRFSSPRIRITDSD 14 SLAY-screened peptide P2982 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCGCTTTTCCTCGCCCCGTATTCGTATCACGGACAGTGATTAGTAGGACAAGTATGATTAA IRFSSPRIRITDSD**DKYD* -1.554 0.000038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24633 LTCIPLLAHIDWLPVEHASS 20 SLAY-screened peptide P2983 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACCTGTATTCCCCTGCTTGCGCATATCGATTGGCTGCCTGTTGAGCACGCGAGTTCTTAA LTCIPLLAHIDWLPVEHASS* -1.553 0.033203 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24634 LTFSRCHASLSELFALPMTH 20 SLAY-screened peptide P2984 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGACTTTTTCTCGCTGTCACGCCAGCCTGAGTGAGCTTTTTGCCCTTCCTATGACCCATTAA LTFSRCHASLSELFALPMTH* -1.553 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24635 VPHHHICYEDNPIPMLIRRRN 21 SLAY-screened peptide P2985 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCCTCACCATCATATTTGTTATGAGGATAACCCTATCCCGATGCTGATCAGGAGACGTAAC VPHHHICYEDNPIPMLIRRRN -1.553 0.000077 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24636 VRTPLCTPSAAHGGLPVFTA 20 SLAY-screened peptide P2986 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCGGACCCCTTTGTGTACCCCTTCTGCGGCCCACGGGGGGCTTCCGGTTTTCACTGCGTAA VRTPLCTPSAAHGGLPVFTA* -1.553 0.021291 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24637 SYLFAFEEYPSSMQSFSISS 20 SLAY-screened peptide P2987 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTACCTTTTTGCCTTTGAGGAGTACCCGTCTTCTATGCAGTCCTTTTCTATTTCGTCCTAA SYLFAFEEYPSSMQSFSISS* -1.552 0.001367 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24638 AAAANTPDNCFRETDNKH 18 SLAY-screened peptide P2988 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGCCGCTGCTAATACGCCTGATAACTGTTTTCGGGAGACCGATAATAAGCATTGAGCTAAC AAAANTPDNCFRETDNKH*AN -1.552 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24639 CLDPFWKTGNINPCWTCNSL 20 SLAY-screened peptide P2989 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCTGGACCCGTTCTGGAAGACCGGTAATATCAATCCCTGCTGGACGTGCAACAGTCTTTAA CLDPFWKTGNINPCWTCNSL* -1.552 0.049144 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24640 ALAARSRVTEQTDRTNDIHL 20 SLAY-screened peptide P2990 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCTTGCGGCGCGCAGCCGCGTTACGGAGCAGACGGATCGCACCAACGATATTCATCTTTAA ALAARSRVTEQTDRTNDIHL* -1.552 0.008816 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24641 SYSDVY 6 SLAY-screened peptide P2991 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTATTCGGATGTCTACTAGCCTCGCTGTGTCGACTAGGTCCAGTACTCGAAGGTCCGCTAA SYSDVY*PRCVD*VQYSKVR* -1.552 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24642 HCRSSGFNKNPDIYTLSARAN 21 SLAY-screened peptide P2992 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGTCGGTCTAGCGGTTTCAACAAGAACCCGGATATCTACACTCTGTCCGCCCGCGCTAAC HCRSSGFNKNPDIYTLSARAN -1.552 0.000224 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24643 SALSPAHGARALSTNDQAMS 20 SLAY-screened peptide P2993 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCGTTGTCCCCCGCCCACGGGGCTCGCGCCCTCTCGACTAATGACCAGGCGATGTCGTAA SALSPAHGARALSTNDQAMS* -1.552 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24644 LTVSFDDSLSFVELLTYSKY 20 SLAY-screened peptide P2994 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACTGTCTCCTTTGATGATAGTCTTAGTTTCGTTGAGCTCTTGACCTATAGTAAGTACTAA LTVSFDDSLSFVELLTYSKY* -1.551 0.002164 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24645 SSRASAPQRSTPISTRYTDV 20 SLAY-screened peptide P2995 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTCGAGGGCGAGCGCCCCTCAGCGTAGCACGCCCATCTCCACTCGCTATACGGACGTGTAA SSRASAPQRSTPISTRYTDV* -1.551 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24646 LRQMPLTREFHYVPSVPNNG 20 SLAY-screened peptide P2996 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGGCAGATGCCTTTGACCAGGGAGTTCCACTACGTCCCGAGCGTTCCTAATAATGGGTAA LRQMPLTREFHYVPSVPNNG* -1.551 0.000069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24647 LYGPPRLVHYYHRWMCLRPP 20 SLAY-screened peptide P2997 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTACGGGCCTCCCAGGCTGGTCCACTACTACCACCGGTGGATGTGCCTTCGCCCTCCGTAA LYGPPRLVHYYHRWMCLRPP* -1.551 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24648 PCVAVYYAASAYAPLYHNWS 20 SLAY-screened peptide P2998 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCGTTGCGGTGTACTACGCGGCCTCCGCCTATGCTCCTCTTTACCACAATTGGTCTTAA PCVAVYYAASAYAPLYHNWS* -1.551 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24649 ILYSGTYSCPYAYFLTPTYH 20 SLAY-screened peptide P2999 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTGTATAGTGGCACCTACTCCTGCCCTTATGCGTACTTCCTCACCCCGACCTACCATTAA ILYSGTYSCPYAYFLTPTYH* -1.55 0.023701 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24650 ENHIEIHLVDRSRSASLLSIN 21 SLAY-screened peptide P3000 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAACCATATTGAGATCCACCTTGTTGACAGATCGAGGTCTGCTTCTCTGCTGTCCATTAAC ENHIEIHLVDRSRSASLLSIN -1.55 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24651 HLLHLLISRFLNLQHGLDDR 20 SLAY-screened peptide P3001 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTTGCTCCACCTCCTCATTAGCCGCTTCCTCAACTTGCAGCACGGTTTGGATGATAGGTAA HLLHLLISRFLNLQHGLDDR* -1.55 0.012282 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24652 SATLSSHIDLDRKANKNNPH 20 SLAY-screened peptide P3002 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCTACCCTCTCCTCCCACATCGATCTCGATCGTAAGGCCAACAAGAATAATCCTCACTAA SATLSSHIDLDRKANKNNPH* -1.55 0.002177 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24653 HHYTTYLSYSI 11 SLAY-screened peptide P3003 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCACTATACCACGTATCTGTCGTATAGCATTTAGGAGCCGTCTACCTGCTATCTCAGGTAA HHYTTYLSYSI*EPSTCYLR* -1.549 0.047541 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24654 LSREEYWLSTPLCSHILMYA 20 SLAY-screened peptide P3004 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCTCGTGAGGAGTATTGGCTTAGCACCCCGCTGTGCTCTCACATTCTGATGTACGCCTAA LSREEYWLSTPLCSHILMYA* -1.549 0.004782 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24655 RTDHLNSNCQALGASGTFTA 20 SLAY-screened peptide P3005 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACTGATCATCTGAACTCTAACTGCCAGGCGTTGGGGGCGTCGGGCACTTTTACTGCTTAA RTDHLNSNCQALGASGTFTA* -1.549 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24656 SIGYIIYHQMPPLMLSLLRW 20 SLAY-screened peptide P3006 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGATCGGTTATATCATTTATCACCAGATGCCTCCTCTTATGCTTAGCCTTCTCCGCTGGTAA SIGYIIYHQMPPLMLSLLRW* -1.549 0.033339 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24657 THTWSTPRCSSASRLFKINM 20 SLAY-screened peptide P3007 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCACACTTGGAGTACCCCTCGTTGTTCGTCTGCCAGCAGGCTCTTCAAGATTAACATGTAA THTWSTPRCSSASRLFKINM* -1.549 0.010901 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24658 TTTVSQEQYASRRSLKRTML 20 SLAY-screened peptide P3008 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACCACTGTCTCCCAGGAGCAGTACGCCAGTAGGCGGTCTCTGAAGCGTACCATGCTCTAA TTTVSQEQYASRRSLKRTML* -1.549 0.000015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24659 RCAPPINFPTSPPYLFYISH 20 SLAY-screened peptide P3009 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTGCGCTCCGCCCATCAACTTTCCGACCTCGCCGCCGTATCTGTTCTATATCAGTCATTAA RCAPPINFPTSPPYLFYISH* -1.549 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24660 RAGLCNICDCPHQAIDLVAL 20 SLAY-screened peptide P3010 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCCGGCCTTTGTAACATTTGCGACTGTCCCCACCAGGCTATCGATCTTGTTGCGCTTTAA RAGLCNICDCPHQAIDLVAL* -1.549 0.003046 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24661 YPCQFCYPRTNGTPFCLIPS 20 SLAY-screened peptide P3011 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCCTGTCAGTTTTGCTATCCTCGCACGAACGGTACTCCGTTCTGCTTGATTCCTAGTTAA YPCQFCYPRTNGTPFCLIPS* -1.549 0.013461 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24662 TCRSP 5 SLAY-screened peptide P3012 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTGCCGCAGTCCTTGAACGACTTTCGCATGAATGATCTCCCCCCTTTGCTTCTGTATTAAC TCRSP*TTFA*MISPLCFCIN -1.549 0.015053 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24663 SQYRRIPGSNFSFSHLHFAL 20 SLAY-screened peptide P3013 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCAGTACCGTCGCATCCCTGGCTCCAATTTTAGTTTCTCCCATCTGCATTTTGCTCTGTAA SQYRRIPGSNFSFSHLHFAL* -1.548 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24664 TFRRFLMLGCTIFTACRKRL 20 SLAY-screened peptide P3014 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTTTCGGCGCTTTCTGATGCTGGGGTGCACGATTTTCACCGCTTGCCGGAAGCGCCTGTAA TFRRFLMLGCTIFTACRKRL* -1.548 0.000065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24665 SFRKNERRVRCTVPAMPCVF 20 SLAY-screened peptide P3015 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTTCCGCAAGAACGAGCGCCGCGTGAGGTGCACCGTGCCCGCCATGCCGTGCGTTTTTTAA SFRKNERRVRCTVPAMPCVF* -1.548 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24666 SCYAATVLTYPKPCLQSSAA 20 SLAY-screened peptide P3016 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTGTTATGCCGCGACGGTGCTTACCTATCCCAAGCCGTGCTTGCAGAGCTCCGCCGCTTAA SCYAATVLTYPKPCLQSSAA* -1.548 0.000183 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24667 PLG 3 SLAY-screened peptide P3017 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTGGGCTAGATTGTTTATACGTGCAAGGGCGGTATTTCTATCAGTGACTATACGACCTAA PLG*IVYTCKGGISISDYTT* -1.548 0.002142 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24668 NWSGSSIRTAWNLTGLCWHQ 20 SLAY-screened peptide P3018 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTGGTCGGGCTCCTCCATTCGTACGGCCTGGAACCTGACCGGGCTCTGCTGGCATCAGTAA NWSGSSIRTAWNLTGLCWHQ* -1.548 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24669 LFNYLAGVDLIRHFVDYTTC 20 SLAY-screened peptide P3019 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTTCAATTACCTGGCGGGGGTCGATTTGATTCGTCATTTTGTGGATTATACGACGTGTTAA LFNYLAGVDLIRHFVDYTTC* -1.548 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24670 PYASGHSCAWYTPIFIESMI 20 SLAY-screened peptide P3020 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTACGCCAGTGGCCATTCCTGTGCTTGGTACACCCCTATTTTCATCGAGTCTATGATTTAA PYASGHSCAWYTPIFIESMI* -1.547 0.039163 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24671 SSLIAVSSSTSIRLLRDYSQ 20 SLAY-screened peptide P3021 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTCGCTTATTGCCGTTAGTTCGTCCACGTCTATCCGTCTGCTTCGCGATTACTCTCAGTAA SSLIAVSSSTSIRLLRDYSQ* -1.547 0.000425 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24672 DHHCTIFISLADWNCLYTLA 20 SLAY-screened peptide P3022 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCATCATTGCACCATCTTTATCTCCCTTGCGGATTGGAACTGTCTTTACACCCTGGCCTAA DHHCTIFISLADWNCLYTLA* -1.547 0.00305 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24673 CPTSSFDSHNTKFQSDFAIV 20 SLAY-screened peptide P3023 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCCACCTCTAGCTTCGACAGCCATAATACTAAGTTTCAGTCTGATTTTGCTATTGTGTAA CPTSSFDSHNTKFQSDFAIV* -1.547 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24674 DSADQVRRFTVHYNQDEISD 20 SLAY-screened peptide P3024 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATAGCGCTGACCAGGTTAGGAGGTTTACCGTCCACTACAATCAGGATGAGATTTCGGATTAA DSADQVRRFTVHYNQDEISD* -1.546 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24675 PSPAFPSSINHVQAHCGYDR 20 SLAY-screened peptide P3025 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCCCGGCCTTCCCTAGCTCCATCAATCATGTTCAGGCCCACTGCGGCTATGATCGGTAA PSPAFPSSINHVQAHCGYDR* -1.546 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24676 MTHAMKAPCLSFHDSDSSNR 20 SLAY-screened peptide P3026 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGACCCACGCGATGAAGGCGCCGTGCCTTTCTTTCCATGATAGTGATTCTAGCAATCGCTAA MTHAMKAPCLSFHDSDSSNR* -1.546 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24677 YKHPHANNCKYYIQITNAND 20 SLAY-screened peptide P3027 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAAGCATCCGCATGCTAATAACTGTAAGTACTATATTCAGATCACTAACGCTAATGACTAA YKHPHANNCKYYIQITNAND* -1.544 0.018362 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24678 SAYRPVCLVSTSPMYREIVFN 21 SLAY-screened peptide P3028 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCGTATCGTCCTGTGTGCCTGGTGAGTACGAGCCCCATGTACAGGGAAATCGTTTTTAAC SAYRPVCLVSTSPMYREIVFN -1.544 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24679 PLYNDRLHSLASTVQLLISA 20 SLAY-screened peptide P3029 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTCTATAACGATCGCCTTCACTCGCTGGCTTCTACGGTCCAGCTCTTGATCTCTGCCTAA PLYNDRLHSLASTVQLLISA* -1.544 0.000196 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24680 PSVMNPENGMTVSQLYCCIT 20 SLAY-screened peptide P3030 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCGTTATGAACCCCGAGAACGGTATGACTGTCTCGCAGCTGTACTGTTGCATCACCTAA PSVMNPENGMTVSQLYCCIT* -1.544 0.000486 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24681 SLLGSPSIIIAVIAAVPDSLT 21 SLAY-screened peptide P3031 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCTCTTGGGTAGTCCTAGTATAATAATTGCGGTCATAGCCGCTGTGCCAGACTCCCTAACT SLLGSPSIIIAVIAAVPDSLT -1.544 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24682 LIRANILLHDGLPSAVRHPD 20 SLAY-screened peptide P3032 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGATTCGTGCGAACATCTTGCTTCACGACGGCCTCCCTTCGGCGGTCCGGCACCCTGACTAA LIRANILLHDGLPSAVRHPD* -1.544 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24683 CPWSYSLRRLRERIFFHLK 19 SLAY-screened peptide P3033 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCCTGGAGTTATTCGCTTCGGCGTCTTAGGGAGAGGATCTTTTTTCATCTTAAGTAGTAA CPWSYSLRRLRERIFFHLK** -1.543 0.022176 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24684 CTYSGDRPLATPTTRATCS 19 SLAY-screened peptide P3034 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACTTATTCTGGTGACCGTCCTTTGGCTACGCCGACCACGCGGGCGACTTGCTCCTAGTAA CTYSGDRPLATPTTRATCS** -1.543 0.035104 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24685 SHKCDWHPNPSYAPVLSTSF 20 SLAY-screened peptide P3035 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCATAAGTGTGACTGGCACCCGAACCCTTCTTATGCTCCCGTCCTGAGTACGAGTTTCTAA SHKCDWHPNPSYAPVLSTSF* -1.543 0.003351 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24686 NYGGNILDSSYYTTATTLYT 20 SLAY-screened peptide P3036 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTATGGGGGTAATATCCTGGATTCTTCGTACTACACGACGGCTACCACTCTGTATACTTAA NYGGNILDSSYYTTATTLYT* -1.543 0.037286 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24687 TYFSRTDDLDRNHLHMCMSW 20 SLAY-screened peptide P3037 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTACTTCAGTCGGACTGACGACCTCGATCGCAATCACTTGCACATGTGTATGTCTTGGTAA TYFSRTDDLDRNHLHMCMSW* -1.543 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24688 VLDTLRAALTILLSYRRNSL 20 SLAY-screened peptide P3038 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCTCGACACGCTTCGTGCTGCTCTGACCATTCTTCTTTCTTACCGTCGTAACTCCTTGTAA VLDTLRAALTILLSYRRNSL* -1.542 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24689 TPKVQGGQDVAPPRPSPLFY 20 SLAY-screened peptide P3039 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCCCAAGGTCCAGGGCGGTCAGGACGTGGCTCCCCCTCGCCCTAGCCCCCTTTTCTACTAA TPKVQGGQDVAPPRPSPLFY* -1.542 0.012848 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24690 PLHMPIILSVIPNDQFTSAR 20 SLAY-screened peptide P3040 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCCATATGCCTATCATTCTCAGTGTTATTCCTAATGATCAGTTTACCTCTGCCCGTTAA PLHMPIILSVIPNDQFTSAR* -1.542 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24691 VSHSLCALLTTPSPRTPLCG 20 SLAY-screened peptide P3041 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTCCCACTCCCTCTGCGCTCTGCTCACGACCCCTTCGCCGAGGACCCCGCTTTGCGGCTAA VSHSLCALLTTPSPRTPLCG* -1.542 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24692 HPSIYSTSMYSLHCAWPSHT 20 SLAY-screened peptide P3042 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCGAGCATTTACTCCACCTCGATGTACTCCCTGCATTGCGCCTGGCCTTCTCACACCTAA HPSIYSTSMYSLHCAWPSHT* -1.541 0.028119 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24693 PPYYPCLIPTFSNPPYFNFR 20 SLAY-screened peptide P3043 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCGTACTATCCGTGCCTGATCCCGACGTTCAGTAATCCTCCTTATTTTAACTTCCGTTAA PPYYPCLIPTFSNPPYFNFR* -1.541 0.004342 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24694 GPSARPTSNLFCMHRSGHAT 20 SLAY-screened peptide P3044 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCCTTCGGCCAGGCCGACTAGTAATCTCTTTTGTATGCACCGTTCCGGCCATGCTACCTAA GPSARPTSNLFCMHRSGHAT* -1.541 0.000344 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24695 QPQKSRFSTNLDQKYNHRPS 20 SLAY-screened peptide P3045 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCCCAGAAGTCTCGGTTCTCGACCAACCTGGACCAGAAGTACAACCACCGGCCCTCGTAA QPQKSRFSTNLDQKYNHRPS* -1.541 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24696 PSPYTNVVKNSTRAGYGPYK 20 SLAY-screened peptide P3046 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCGCCCTACACCAACGTTGTGAAGAACTCTACCCGCGCCGGGTATGGCCCTTACAAGTAA PSPYTNVVKNSTRAGYGPYK* -1.541 0.007947 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24697 PSKCDQSS 8 SLAY-screened peptide P3047 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGTAAGTGCGATCAGAGTAGTTAGTTGCCGTATAATTGTTCGACCTATGACTAGTGCTAA PSKCDQSS*LPYNCSTYD*C* -1.541 0.000224 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24698 YRFQAATGLLADRFPRHAVD 20 SLAY-screened peptide P3048 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCGGTTTCAGGCTGCCACTGGGCTCCTCGCCGACCGTTTTCCCAGGCATGCCGTCGACTAA YRFQAATGLLADRFPRHAVD* -1.541 0.046101 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24699 QVFHPS 6 SLAY-screened peptide P3049 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGTGTTTCACCCGTCCTAGGACAAGGCTCCCATGGAGACTGGTGTTACCTACGTCTTCTAA QVFHPS*DKAPMETGVTYVF* -1.54 0.047036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24700 TLTICPVRSGTWHIALFGIP 20 SLAY-screened peptide P3050 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTTGACGATTTGCCCTGTGAGGAGTGGCACTTGGCACATCGCGCTTTTTGGCATTCCTTAA TLTICPVRSGTWHIALFGIP* -1.539 0.000554 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24701 TYNCSTLRSIRMTLI 15 SLAY-screened peptide P3051 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTACAATTGTTCTACTCTGCGCTCCATCCGCATGACGCTTATTTAGAGTGCCACCAATTAA TYNCSTLRSIRMTLI*SATN* -1.539 0.002448 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24702 RFAVPSPCPYYCLSYPYVYL 20 SLAY-screened peptide P3052 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTTCGCTGTGCCCTCCCCCTGTCCCTACTACTGCCTGAGCTACCCCTACGTTTACCTGTAA RFAVPSPCPYYCLSYPYVYL* -1.538 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24703 SINGKRWPGA 10 SLAY-screened peptide P3053 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTATTAATGGTAAGCGTTGGCCCGGTGCCTAGCTCTGTAAGTATCGTTGCAACACTACGTAA SINGKRWPGA*LCKYRCNTT* -1.538 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24704 RHNEMNSGDSIRCLPTMS 18 SLAY-screened peptide P3054 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCACAACGAGATGAACTCGGGTGACTCCATCCGTTGTCTTCCCACTATGTCGTAGCATTAA RHNEMNSGDSIRCLPTMS*H* -1.538 0.001192 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24705 DWKLPTRTLRLFRRICPTRVN 21 SLAY-screened peptide P3055 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTGGAAGCTCCCCACCAGAACATTACGATTATTCAGGCGTATCTGCCCGACACGCGTTAAC DWKLPTRTLRLFRRICPTRVN -1.538 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24706 FYPFHGSHFPVPYINNCDPA 20 SLAY-screened peptide P3056 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTATCCTTTCCACGGTAGCCACTTCCCTGTGCCGTATATTAACAATTGCGATCCCGCGTAA FYPFHGSHFPVPYINNCDPA* -1.538 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24707 PSCDLWDCRFRCLTLWPTVH 20 SLAY-screened peptide P3057 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAGCTGTGATTTGTGGGATTGCCGGTTTAGGTGTCTCACCCTCTGGCCGACCGTCCATTAA PSCDLWDCRFRCLTLWPTVH* -1.538 0.000333 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24708 ASRETDPSTSNCTDSCAFKS 20 SLAY-screened peptide P3058 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTCTCGCGAGACTGACCCCTCCACTTCCAACTGCACGGACTCCTGCGCCTTTAAGAGCTAA ASRETDPSTSNCTDSCAFKS* -1.537 0.020004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24709 SSTCYVLHPSMRNTHRDSPG 20 SLAY-screened peptide P3059 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCGACGTGCTATGTCTTGCACCCCAGTATGCGCAATACTCATCGCGATTCGCCCGGTTAA SSTCYVLHPSMRNTHRDSPG* -1.537 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24710 LLHVRLGLSFLPLRCWAPQV 20 SLAY-screened peptide P3060 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTGCATGTCAGGCTCGGCCTCAGCTTTCTGCCCCTCCGTTGTTGGGCGCCTCAGGTTTAA LLHVRLGLSFLPLRCWAPQV* -1.537 0.011351 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24711 HDAILAVRKHGNRLQICGAN 20 SLAY-screened peptide P3061 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGACGCTATTCTGGCGGTTAGGAAGCATGGTAATAGGCTTCAGATTTGTGGGGCTAACTAA HDAILAVRKHGNRLQICGAN* -1.537 0.001766 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24712 YHSLRTSRRPSPTDVSITYS 20 SLAY-screened peptide P3062 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCACTCCCTTCGGACGAGTCGCCGCCCGTCTCCGACTGATGTGTCCATCACCTATAGTTAA YHSLRTSRRPSPTDVSITYS* -1.537 0.003343 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24713 MATPASQVVVLQGLPTVNPN 20 SLAY-screened peptide P3063 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGCCACTCCTGCTAGCCAGGTCGTTGTTTTGCAGGGCCTGCCGACTGTTAATCCCAACTAA MATPASQVVVLQGLPTVNPN* -1.537 0.000577 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24714 AYDPDSQNSNYCMNHTFYKD 20 SLAY-screened peptide P3064 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTACGATCCCGACTCCCAGAATTCGAATTATTGCATGAATCATACCTTCTATAAGGATTAA AYDPDSQNSNYCMNHTFYKD* -1.536 0.00558 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24715 LRLRIRRLTVSVIVVSFMLSN 21 SLAY-screened peptide P3065 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAGGTTGAGAATTCGTCGCCTCACCGTTAGTGTTATTGTAGTAAGCTTTATGCTCAGTAAC LRLRIRRLTVSVIVVSFMLSN -1.536 0.000223 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24716 PAPLYTRALSAFLM 14 SLAY-screened peptide P3066 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCCCCTCTTTATACTAGGGCCTTATCGGCGTTCCTGATGTGAGTCAGCCGGACCGTTACT PAPLYTRALSAFLM*VSRTVT -1.536 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24717 FSGSHFPFYPLGHPCYVLRY 20 SLAY-screened peptide P3067 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTCTGGGTCTCATTTTCCTTTCTACCCCCTCGGTCACCCCTGCTATGTCCTCAGGTATTAA FSGSHFPFYPLGHPCYVLRY* -1.536 0.000039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24718 FHCSCSARSLTFWYHDSLNH 20 SLAY-screened peptide P3068 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCACTGTTCCTGCTCTGCCAGGTCCTTGACCTTCTGGTATCACGATTCGCTCAATCACTAA FHCSCSARSLTFWYHDSLNH* -1.536 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24719 MRCTAQDNIAAKLPKNGLAY 20 SLAY-screened peptide P3069 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCGGTGTACGGCCCAGGATAATATTGCGGCCAAGCTTCCCAAGAATGGGTTGGCTTATTAA MRCTAQDNIAAKLPKNGLAY* -1.535 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24720 NTPETSPGLRHCNCRTAVNF 20 SLAY-screened peptide P3070 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACCCCCGAGACGAGCCCTGGTTTGCGCCATTGTAATTGTAGGACGGCTGTGAACTTTTAA NTPETSPGLRHCNCRTAVNF* -1.535 0.000075 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24721 RSYTRSRFPHFLNNWIRVAR 20 SLAY-screened peptide P3071 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAGCTATACTAGGTCCCGGTTTCCCCATTTTCTCAACAACTGGATTCGCGTTGCCCGGTAA RSYTRSRFPHFLNNWIRVAR* -1.535 0.003358 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24722 PYPCLPGFSNIVSNIPDCKL 20 SLAY-screened peptide P3072 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTACCCCTGCTTGCCCGGTTTCAGCAATATTGTTTCTAATATCCCTGATTGCAAGCTGTAA PYPCLPGFSNIVSNIPDCKL* -1.535 0.042403 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24723 TTTSLLSRLPPNYMAYSSAH 20 SLAY-screened peptide P3073 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACGACGAGTCTTCTTTCTCGGCTTCCGCCCAATTATATGGCCTATTCGTCGGCCCATTAA TTTSLLSRLPPNYMAYSSAH* -1.535 0.000418 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24724 RIHGHDLRVHRPLRASTRQS 20 SLAY-screened peptide P3074 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATCCACGGTCATGATCTCCGTGTCCACCGTCCCTTGCGGGCGTCGACGCGCCAGTCGTAA RIHGHDLRVHRPLRASTRQS* -1.535 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24725 IPYGATQLNKSQHRFNSFYR 20 SLAY-screened peptide P3075 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCTTACGGGGCCACCCAGTTGAATAAGTCCCAGCACCGGTTCAATAGTTTTTACAGGTAA IPYGATQLNKSQHRFNSFYR* -1.535 0.018909 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24726 IDCLRAFISILFKIIFLYTV 20 SLAY-screened peptide P3076 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGACTGCCTCCGTGCTTTTATCTCCATTCTGTTCAAGATCATTTTCTTGTACACCGTCTAA IDCLRAFISILFKIIFLYTV* -1.535 0.004502 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24727 SRAQRRSICSCLMMSPQPLA 20 SLAY-screened peptide P3077 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGCGCTCAGCGCAGGTCGATCTGCAGCTGCTTGATGATGTCGCCTCAGCCCCTCGCTTAA SRAQRRSICSCLMMSPQPLA* -1.534 0.017212 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24728 WWTLYNYSTTPYAVHGGSFLN 21 SLAY-screened peptide P3078 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTGGACTTTGTACAATTACAGTACCACTCCCTATGCCGTCCATGGTGGATCGTTTCTTAAC WWTLYNYSTTPYAVHGGSFLN -1.534 0.000182 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24729 IIHHVTTGHNS 11 SLAY-screened peptide P3079 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCATCCATCACGTCACCACGGGGCACAACTCTTAGCTTAAGACTGCGTCTGCCTACGCTTAA IIHHVTTGHNS*LKTASAYA* -1.534 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24730 RDELLHLSYSVPSTHHSRRF 20 SLAY-screened peptide P3080 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGACGAGCTCCTGCATCTTTCTTATTCTGTCCCCAGTACCCACCATTCGCGCCGTTTTTAA RDELLHLSYSVPSTHHSRRF* -1.534 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24731 HHCRIGTMSTHHTPRYIECS 20 SLAY-screened peptide P3081 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCACTGTCGTATCGGTACTATGTCTACCCATCATACTCCGAGGTACATCGAGTGCAGTTAA HHCRIGTMSTHHTPRYIECS* -1.534 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24732 TLTQGYHSLPVFTISHTTPL 20 SLAY-screened peptide P3082 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTCACGCAGGGTTACCACAGTCTGCCCGTCTTTACGATTTCCCATACGACGCCCCTGTAA TLTQGYHSLPVFTISHTTPL* -1.534 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24733 PSRTMDTLNSDRH 13 SLAY-screened peptide P3083 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGTCGCACCATGGATACTCTTAATTCGGATCGGCACTAGCTTATGGCGGGCCATCCCTAA PSRTMDTLNSDRH*LMAGHP* -1.533 0.003336 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24734 PYSPCDYTTTLSRVNSSFIR 20 SLAY-screened peptide P3084 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATTCCCCGTGTGACTATACGACGACCCTTAGTCGTGTGAATTCCAGCTTCATCCGCTAA PYSPCDYTTTLSRVNSSFIR* -1.533 0.018555 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24735 HNACSLAHPIYPLQIRNTCN 20 SLAY-screened peptide P3085 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAATGCGTGCTCCTTGGCCCACCCTATCTACCCTCTTCAGATTCGGAACACCTGCAATTAA HNACSLAHPIYPLQIRNTCN* -1.533 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24736 RRLLLPKPRFCTPAFCPRLSN 21 SLAY-screened peptide P3086 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGGCTCCTTCTGCCCAAACCTCGCTTCTGTACACCAGCCTTTTGCCCGCGACTCAGTAAC RRLLLPKPRFCTPAFCPRLSN -1.533 0.008045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24737 TTLTRQVGRISDGGGILPAE 20 SLAY-screened peptide P3087 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACCCTCACTCGTCAGGTGGGGCGCATTAGCGATGGCGGCGGTATTTTGCCTGCCGAGTAA TTLTRQVGRISDGGGILPAE* -1.533 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24738 FKRPYSNSRKSNRTTSTLSM 20 SLAY-screened peptide P3088 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTAAGCGGCCCTACTCTAACAGTCGCAAGAGCAATCGTACCACTAGTACGCTTAGCATGTAA FKRPYSNSRKSNRTTSTLSM* -1.532 0.010611 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24739 YSRLFGSCRFSNRYYNHRDF 20 SLAY-screened peptide P3089 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCTCGTCTTTTCGGCAGTTGCCGTTTCTCTAACCGTTACTACAATCATCGGGACTTCTAA YSRLFGSCRFSNRYYNHRDF* -1.532 0.032006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24740 YLIN 4 SLAY-screened peptide P3090 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTTGATCAACTAGGAGACCGGTCTGTGCGGGACTCATGTCACCTGCACGGTTGACCTGTAA YLIN*ETGLCGTHVTCTVDL* -1.532 0.002373 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24741 QPTFTVYDVHYNHNYGASKR 20 SLAY-screened peptide P3091 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCGACTTTTACGGTCTATGATGTCCATTATAACCATAATTACGGGGCGTCCAAGCGGTAA QPTFTVYDVHYNHNYGASKR* -1.532 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24742 FPGDAIHIHFRAWRRTKRHH 20 SLAY-screened peptide P3092 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCTGGGGACGCCATTCATATCCACTTTCGCGCGTGGCGTAGGACGAAGCGGCATCATTAA FPGDAIHIHFRAWRRTKRHH* -1.532 0.011094 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24743 PRLQHSYTFVACDYDTHANL 20 SLAY-screened peptide P3093 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGTCTCCAGCATAGCTACACGTTTGTTGCTTGTGACTATGATACGCATGCTAACCTCTAA PRLQHSYTFVACDYDTHANL* -1.531 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24744 PYNALPSIQTAVKEESLCAS 20 SLAY-screened peptide P3094 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTACAACGCTTTGCCTTCCATTCAGACGGCCGTGAAGGAGGAGAGCCTTTGCGCCAGCTAA PYNALPSIQTAVKEESLCAS* -1.531 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24745 HRVTSSALYDSNVISMEQFP 20 SLAY-screened peptide P3095 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGCGTTACTAGTAGCGCCCTTTACGATTCTAATGTGATCAGCATGGAGCAGTTTCCCTAA HRVTSSALYDSNVISMEQFP* -1.531 0.002627 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24746 TDHPFDYNHGVSQANRNNYY 20 SLAY-screened peptide P3096 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGACCACCCCTTCGATTATAACCACGGTGTTTCCCAGGCTAACCGTAACAACTATTATTAA TDHPFDYNHGVSQANRNNYY* -1.531 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24747 RPCPRSSSPHTDKRCRCMLR 20 SLAY-screened peptide P3097 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCCTGCCCCAGGTCCTCGAGTCCTCATACTGACAAGCGCTGTCGCTGCATGCTTCGGTAA RPCPRSSSPHTDKRCRCMLR* -1.531 0.000676 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24748 VPPALQTGNNICLSNYFTRL 20 SLAY-screened peptide P3098 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCCCCCTGCTCTCCAGACCGGTAACAACATCTGCCTCTCCAATTACTTCACGAGGCTGTAA VPPALQTGNNICLSNYFTRL* -1.531 0.000026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24749 STNPTNVVTHDNIYDDVDNG 20 SLAY-screened peptide P3099 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACCAATCCGACGAACGTCGTTACGCACGATAACATCTATGACGATGTTGACAACGGGTAA STNPTNVVTHDNIYDDVDNG* -1.53 0.006087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24750 PLAGYSAFNHLYVNSSRVRK 20 SLAY-screened peptide P3100 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTGGCGGGCTACTCTGCTTTTAATCACCTCTATGTTAATTCCAGTCGCGTGCGTAAGTAA PLAGYSAFNHLYVNSSRVRK* -1.53 0.006088 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24751 KKSVSSHCTPLGTDRIDSHT 20 SLAY-screened peptide P3101 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGAAGTCCGTTTCTAGCCACTGTACTCCCCTCGGTACTGATAGGATCGACTCCCATACGTAA KKSVSSHCTPLGTDRIDSHT* -1.53 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24752 VPGCRAGSPSSLPSEPSLFM 20 SLAY-screened peptide P3102 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCTGGGTGCCGTGCCGGTTCGCCGAGCAGTCTCCCGTCCGAGCCTAGCCTGTTTATGTAA VPGCRAGSPSSLPSEPSLFM* -1.53 0.009701 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24753 PIALPAGDRFYMPLSFPSSY 20 SLAY-screened peptide P3103 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATTGCTCTCCCTGCCGGTGATCGCTTCTATATGCCGCTCTCCTTCCCCTCGTCTTACTAA PIALPAGDRFYMPLSFPSSY* -1.53 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24754 TPPWSNSRTIDNPSVLHEDA 20 SLAY-screened peptide P3104 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCCCCGTGGTCTAACAGCCGTACGATTGACAATCCCTCCGTTCTTCACGAGGATGCCTAA TPPWSNSRTIDNPSVLHEDA* -1.53 0.034592 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24755 HTLYSPTYHKRVIAHNLIRS 20 SLAY-screened peptide P3105 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACGTTGTACTCGCCCACGTATCACAAGCGCGTGATTGCTCACAATCTGATTCGGAGCTAA HTLYSPTYHKRVIAHNLIRS* -1.53 0.000761 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24756 YPTTLYLIFNCSANNRCLLS 20 SLAY-screened peptide P3106 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCCACTACTCTTTACCTTATCTTCAACTGTAGTGCCAACAATAGGTGCTTGTTGAGTTAA YPTTLYLIFNCSANNRCLLS* -1.529 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24757 HPRTSPHRPCSFDWKYLARL 20 SLAY-screened peptide P3107 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGCGCACGTCGCCTCATCGGCCCTGTAGCTTTGACTGGAAGTACTTGGCTAGGCTTTAA HPRTSPHRPCSFDWKYLARL* -1.529 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24758 AQRAVVISVFCTVWFDLSTG 20 SLAY-screened peptide P3108 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCAGAGGGCTGTGGTTATCAGTGTTTTCTGCACTGTTTGGTTCGACCTTTCTACGGGCTAA AQRAVVISVFCTVWFDLSTG* -1.529 0.023708 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24759 DLDMDGYLFYHMLPLNMC 18 SLAY-screened peptide P3109 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCTGGATATGGATGGCTATTTGTTTTATCACATGCTTCCGCTTAACATGTGCTAACTGAGT DLDMDGYLFYHMLPLNMC*LS -1.529 0.000101 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24760 SAM 3 SLAY-screened peptide P3110 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGCCATGTAGGACCCTTATAGCCCTGCGTAGGCGCCTTACATTGAGAATGGGACCAAGTAA SAM*DPYSPA*APYIENGTK* -1.529 0.000022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24761 SCNTTTFPRYPGYTYYLCNF 20 SLAY-screened peptide P3111 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTGTAACACTACCACGTTTCCCAGGTACCCTGGTTATACTTATTACCTTTGTAACTTTTAA SCNTTTFPRYPGYTYYLCNF* -1.529 0.045364 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24762 HLCFRSPTLGVIAYHNPCVR 20 SLAY-screened peptide P3112 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTTGTGCTTCCGGTCTCCTACTCTCGGTGTCATTGCGTACCACAATCCGTGCGTCCGTTAA HLCFRSPTLGVIAYHNPCVR* -1.529 0.006405 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24763 TCNSPSRYGNAWPSYTIIGIN 21 SLAY-screened peptide P3113 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTGCAACAGCCCTTCTAGGTACGGCAACGCCTGGCCTAGTTATACCATCATCGGTATTAAC TCNSPSRYGNAWPSYTIIGIN -1.528 0.024284 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24764 SARRRLTQFRTLIVSYHNGT 20 SLAY-screened peptide P3114 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGCCAGGAGGCGGCTCACGCAGTTCAGGACGCTTATCGTCAGTTACCATAACGGCACCTAA SARRRLTQFRTLIVSYHNGT* -1.528 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24765 LFMLIAIFPARGSSRRYQAY 20 SLAY-screened peptide P3115 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTTATGCTCATCGCTATCTTCCCCGCCCGCGGTTCGAGTCGCAGGTACCAGGCGTATTAA LFMLIAIFPARGSSRRYQAY* -1.528 0.022385 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24766 SSLVWDFTNTAPNIVTAMPK 20 SLAY-screened peptide P3116 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAGCCTCGTGTGGGATTTTACCAACACGGCGCCTAATATTGTGACCGCGATGCCGAAGTAA SSLVWDFTNTAPNIVTAMPK* -1.527 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24767 LRSVFVMFDKPWYDYFLIAQ 20 SLAY-screened peptide P3117 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGCTCCGTCTTTGTTATGTTTGACAAGCCTTGGTATGATTATTTCCTGATCGCTCAGTAA LRSVFVMFDKPWYDYFLIAQ* -1.527 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24768 RTYY 4 SLAY-screened peptide P3118 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACTTATTATTAGGACCTTCCCACTTTGTCGCGTAAGCATTACATCCTTTGGAGTTCCTAA RTYY*DLPTLSRKHYILWSS* -1.527 0.042431 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24769 ELHHWNPAFVKLRSTWWGPIN 21 SLAY-screened peptide P3119 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGTTGCATCACTGGAATCCCGCGTTTGTGAAGTTGCGAAGCACATGGTGGGGACCAATTAAC ELHHWNPAFVKLRSTWWGPIN -1.526 0.009587 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24770 FGDPGHLRCVAITKACNPFI 20 SLAY-screened peptide P3120 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGGTGATCCGGGTCACCTCCGGTGCGTTGCCATTACCAAGGCTTGTAATCCCTTCATTTAA FGDPGHLRCVAITKACNPFI* -1.526 0.000042 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24771 VHYVNYGFSYVWIIRCDLPS 20 SLAY-screened peptide P3121 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCACTACGTTAATTACGGTTTTTCCTATGTCTGGATCATTCGTTGTGACCTCCCTAGTTAA VHYVNYGFSYVWIIRCDLPS* -1.525 0.00011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24772 SCPVLPLPLFGTLLNYVAEQ 20 SLAY-screened peptide P3122 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTGTCCTGTCCTTCCTCTTCCCCTTTTTGGCACTCTCTTGAACTACGTCGCGGAGCAGTAA SCPVLPLPLFGTLLNYVAEQ* -1.525 0.001619 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24773 NANMNVFRIGTSLYNLTISH 20 SLAY-screened peptide P3123 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGCGAATATGAACGTTTTCAGGATTGGTACCAGTTTGTATAATTTGACCATTAGTCATTAA NANMNVFRIGTSLYNLTISH* -1.525 0.001243 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24774 TCI 3 SLAY-screened peptide P3124 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGCATTTAGTACTACCTGTCGACCTACCATATTCCGAGCGTCCACTGGATCTTGGCCTAA TCI*YYLSTYHIPSVHWILA* -1.525 0.00005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24775 CLFL 4 SLAY-screened peptide P3125 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCTTTCTTTAGGCCTTGTTTTCTGACAGCTGTATTGTGTGTTTCCATGATTTTAGGTAA CLFL*ALFSDSCIVCFHDFR* -1.525 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24776 PFNRAS 6 SLAY-screened peptide P3126 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTTAACCGCGCTTCTTAGACTAATTTTTAGGAGCGTCTCAACTTTATTCACGAGTGGTAA PFNRAS*TNF*ERLNFIHEW* -1.524 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24777 DFSVQSNELSITLCFLIFFLN 21 SLAY-screened peptide P3127 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTTCAGTGTTCAGAGCAACGAGTTGTCCATTACTCTGTGCTTTTTAATTTTTTTTCTTAAC DFSVQSNELSITLCFLIFFLN -1.524 0.001709 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24778 LYHCYLAR 8 SLAY-screened peptide P3128 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTATCACTGCTACCTCGCTCGGTAGGCCTTTGGTCATGGCAGTAACCATAACGGGAAGTAA LYHCYLAR*AFGHGSNHNGK* -1.524 0.037971 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24779 LTRRRPTFQSPRPANVTKTQ 20 SLAY-screened peptide P3129 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCACTAGGCGGCGGCCTACTTTTCAGAGTCCGCGCCCCGCTAATGTTACTAAGACGCAGTAA LTRRRPTFQSPRPANVTKTQ* -1.523 0.000276 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24780 DANTCIGDRYDSDADAISLV 20 SLAY-screened peptide P3130 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGCCAACACTTGCATCGGTGACCGCTATGACAGTGATGCGGACGCCATTAGTTTGGTCTAA DANTCIGDRYDSDADAISLV* -1.523 0.012066 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24781 RICLRRVVISTPSTCSICLFN 21 SLAY-screened peptide P3131 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATTTGCCTCCGCCGTGTGGTTATCAGCACTCCATCAACTTGTTCTATCTGCCTGTTTAAC RICLRRVVISTPSTCSICLFN -1.523 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24782 TDFNSHSKLYGCVMRNTNSS 20 SLAY-screened peptide P3132 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGACTTTAACAGCCACTCTAAGCTTTATGGGTGCGTTATGCGTAATACGAATTCTAGCTAA TDFNSHSKLYGCVMRNTNSS* -1.523 0.04764 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24783 SRNSGHPPAIFDHLILSYPA 20 SLAY-screened peptide P3133 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGTAATTCCGGTCACCCGCCGGCTATCTTCGATCATCTTATTTTGTCCTATCCTGCCTAA SRNSGHPPAIFDHLILSYPA* -1.522 0.001304 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24784 FHVRSTQTNMGFANRYDRFQ 20 SLAY-screened peptide P3134 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCACGTTAGGTCGACTCAGACCAATATGGGTTTTGCGAATAGGTACGATAGGTTTCAGTAA FHVRSTQTNMGFANRYDRFQ* -1.522 0.03846 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24785 CPARPTTTNEEYMRYEYAPY 20 SLAY-screened peptide P3135 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCTGCTCGTCCTACTACCACCAACGAGGAGTATATGCGTTATGAGTACGCTCCTTATTAA CPARPTTTNEEYMRYEYAPY* -1.522 0.000037 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24786 PDVKILPNPENLRFCRWYYI 20 SLAY-screened peptide P3136 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGACGTGAAGATTCTTCCCAACCCTGAGAACCTTAGGTTTTGCAGGTGGTATTACATTTAA PDVKILPNPENLRFCRWYYI* -1.522 0.002159 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24787 YTTLPNRHQYRISFCSTYYS 20 SLAY-screened peptide P3137 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACTACTCTCCCGAACCGCCATCAGTACAGGATTTCTTTTTGTTCCACTTATTACTCTTAA YTTLPNRHQYRISFCSTYYS* -1.521 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24788 PINTYTSVQSRCPDLNLRAG 20 SLAY-screened peptide P3138 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATCAACACTTACACCAGTGTCCAGAGTCGCTGTCCTGACCTTAACCTCAGGGCGGGCTAA PINTYTSVQSRCPDLNLRAG* -1.521 0.000035 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24789 HNVTRFTMSWNFSGTN 16 SLAY-screened peptide P3139 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAATGTCACGCGTTTCACGATGAGTTGGAATTTCTCGGGCACCAATTAGCAGGATGTTTAA HNVTRFTMSWNFSGTN*QDV* -1.521 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24790 FDCWRVPTTGCYAPLFTIIL 20 SLAY-screened peptide P3140 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGATTGCTGGAGGGTTCCGACTACGGGCTGTTATGCCCCTCTTTTCACGATTATCCTGTAA FDCWRVPTTGCYAPLFTIIL* -1.521 0.001299 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24791 TIGPLRVYSLTRFDYRVILY 20 SLAY-screened peptide P3141 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCATTGGCCCGCTCCGTGTTTACTCGCTTACCCGGTTTGATTACAGGGTCATTTTGTATTAA TIGPLRVYSLTRFDYRVILY* -1.521 0.024896 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24792 VSMRTHPLSSASVLTHSHFT 20 SLAY-screened peptide P3142 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCAGTATGCGGACCCATCCCCTCTCCTCGGCGAGTGTTCTTACTCACTCTCACTTTACTTAA VSMRTHPLSSASVLTHSHFT* -1.52 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24793 PIAGLTTYRPILFKPDHNGK 20 SLAY-screened peptide P3143 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATCGCCGGTCTCACTACCTACCGTCCGATCTTGTTTAAGCCTGATCACAACGGGAAGTAA PIAGLTTYRPILFKPDHNGK* -1.52 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24794 NNPNVRARRLPLPSALVIRSN 21 SLAY-screened peptide P3144 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAATCCTAACGTGCGTGCTCGACGCCTTCCCCTACCGTCCGCACTAGTGATTCGCTCTAAC NNPNVRARRLPLPSALVIRSN -1.52 0.001299 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24795 YGLVYHKMCVAPKVAIHAD 19 SLAY-screened peptide P3145 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGGCCTCGTCTACCATAAGATGTGTGTTGCCCCCAAGGTTGCTATCCACGCCGATTAGTAA YGLVYHKMCVAPKVAIHAD** -1.52 0.000624 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24796 RNCPTPPNRATSWSLPMLNG 20 SLAY-screened peptide P3146 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGAACTGCCCGACTCCCCCCAACCGTGCTACTTCGTGGTCGTTGCCGATGTTGAATGGTTAA RNCPTPPNRATSWSLPMLNG* -1.52 0.03504 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24797 TTSNGFYYDTHYTLLPGYYV 20 SLAY-screened peptide P3147 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACCTCGAATGGCTTCTACTACGACACCCATTATACTCTCTTGCCCGGTTACTATGTTTAA TTSNGFYYDTHYTLLPGYYV* -1.52 0.000302 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24798 LPHAANPRPHIANYMNINC 19 SLAY-screened peptide P3148 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCTCATGCTGCCAACCCTCGCCCTCATATTGCTAATTATATGAACATCAATTGCTAGTAA LPHAANPRPHIANYMNINC** -1.519 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24799 HTLPHCPLMMMKIMYLNRNH 20 SLAY-screened peptide P3149 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACGCTTCCTCACTGCCCCCTGATGATGATGAAGATTATGTATCTCAACCGCAATCATTAA HTLPHCPLMMMKIMYLNRNH* -1.519 0.003326 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24800 SECTMYSKRFPTNIMLPSLI 20 SLAY-screened peptide P3150 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGAGTGCACCATGTATTCGAAGAGGTTTCCTACGAACATTATGCTTCCCTCCCTGATTTAA SECTMYSKRFPTNIMLPSLI* -1.519 0.000582 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24801 VFLAITSN 8 SLAY-screened peptide P3151 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTTTCTCGCTATCACCTCGAACTAGCACGTGCCCCACATTACCAATCTTGTTATGTCGTAA VFLAITSN*HVPHITNLVMS* -1.519 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24802 PPFYLFLSLDTTTTPRPPTG 20 SLAY-screened peptide P3152 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTTTCTATCTTTTCTTGAGCCTCGACACCACTACGACGCCTCGTCCTCCGACGGGCTAA PPFYLFLSLDTTTTPRPPTG* -1.519 0.00121 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24803 LYFTTNPDQFQNSKKWIPRA 20 SLAY-screened peptide P3153 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTACTTTACTACGAACCCTGATCAGTTCCAGAACTCCAAGAAGTGGATTCCTCGGGCCTAA LYFTTNPDQFQNSKKWIPRA* -1.519 0.000646 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24804 CGPSYRTLPLFVAWCCS 17 SLAY-screened peptide P3154 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGGTCCCAGCTACCGGACCCTGCCGCTCTTCGTTGCCTGGTGTTGCAGTTAGAGTAGCTAA CGPSYRTLPLFVAWCCS*SS* -1.519 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24805 RNLYAVKRNTGPFHLSTHPH 20 SLAY-screened peptide P3155 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAATCTCTACGCCGTGAAGCGGAATACTGGTCCCTTTCACCTGAGCACCCACCCGCACTAA RNLYAVKRNTGPFHLSTHPH* -1.519 0.000401 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24806 EIVLCTDIRDQSHPFQPGST 20 SLAY-screened peptide P3156 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGATTGTTCTTTGCACTGACATCAGGGACCAGAGTCATCCTTTCCAGCCCGGCTCGACTTAA EIVLCTDIRDQSHPFQPGST* -1.518 0.000159 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24807 KQGGRLFHFLIYLKRRFCAR 20 SLAY-screened peptide P3157 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCAGGGGGGCCGCCTTTTCCACTTCCTGATCTATCTCAAGCGTCGTTTCTGTGCCCGTTAA KQGGRLFHFLIYLKRRFCAR* -1.518 0.000065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24808 WHDSLRCHSPLRVAKHWPRL 20 SLAY-screened peptide P3158 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCATGATTCCCTGCGGTGTCACTCGCCTCTTCGTGTCGCCAAGCATTGGCCGCGGCTTTAA WHDSLRCHSPLRVAKHWPRL* -1.518 0.00017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24809 IYDCN 5 SLAY-screened peptide P3159 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTACGATTGTAATTAGGGCAGTTATAATGCGAATCGCCAGGGTTCGTGTGTGTGGCATTAA IYDCN*GSYNANRQGSCVWH* -1.518 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24810 IYIRVFCLLIIRIR 14 SLAY-screened peptide P3160 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTACATTAGGGTCTTTTGTCTTCTGATCATTCGTATTAGGTAGTATACGTTTGGTAGCTAA IYIRVFCLLIIRIR*YTFGS* -1.518 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24811 THVFNLPDNLLYHCNSHFDS 20 SLAY-screened peptide P3161 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCACGTCTTCAATTTGCCTGACAATCTCCTCTATCATTGCAATTCTCACTTCGATTCGTAA THVFNLPDNLLYHCNSHFDS* -1.517 0.005088 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24812 HDLYNVKKRD 10 SLAY-screened peptide P3162 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGATCTTTACAACGTCAAGAAGAGGGACTAGGTTAGCTTCCGGCTTACCTTTTTCAGCTAA HDLYNVKKRD*VSFRLTFFS* -1.517 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24813 NSVIRPRHN 9 SLAY-screened peptide P3163 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTCCGTGATCCGCCCGCGCCACAATTAGTCGGTCGGTAGGGATCTTGATGCTACTTAGTAA NSVIRPRHN*SVGRDLDAT** -1.516 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24814 PSRSPTSPDPFLKAILTNLV 20 SLAY-screened peptide P3164 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCCCGGTCGCCCACCAGTCCGGATCCCTTTCTCAAGGCTATCTTGACGAATCTCGTTTAA PSRSPTSPDPFLKAILTNLV* -1.516 0.000041 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24815 PALLTSPHSDLCHSVYYDLA 20 SLAY-screened peptide P3165 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCCTTGCTTACCAGCCCGCATAGCGACCTCTGCCACAGTGTCTATTACGATCTGGCTTAA PALLTSPHSDLCHSVYYDLA* -1.516 0.005969 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24816 LVLNRWSHPHSNPMRSYSRQ 20 SLAY-screened peptide P3166 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGTTCTCAATAGGTGGTCCCATCCGCATTCGAACCCTATGCGTAGTTACTCCCGGCAGTAA LVLNRWSHPHSNPMRSYSRQ* -1.515 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24817 SLAKLHNFCTVLQSVICVRW 20 SLAY-screened peptide P3167 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCTCGCTAAGCTCCATAACTTCTGTACTGTCTTGCAGTCGGTGATCTGTGTGAGGTGGTAA SLAKLHNFCTVLQSVICVRW* -1.515 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24818 SIPCPHLPRCPYPTGPSRGM 20 SLAY-screened peptide P3168 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTATCCCCTGTCCTCACCTCCCCCGGTGCCCTTATCCCACGGGCCCTTCCCGGGGCATGTAA SIPCPHLPRCPYPTGPSRGM* -1.515 0.031849 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24819 RSYTLLYNTSEIQIKSVNIR 20 SLAY-screened peptide P3169 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTCTTACACCCTTTTGTATAATACTTCTGAGATTCAGATCAAGTCCGTGAATATCAGGTAA RSYTLLYNTSEIQIKSVNIR* -1.515 0.015629 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24820 DLDLICNRFAIVEMLVTTYA 20 SLAY-screened peptide P3170 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCTCGATCTGATCTGTAACCGGTTCGCGATTGTCGAGATGCTGGTTACGACCTACGCGTAA DLDLICNRFAIVEMLVTTYA* -1.515 0.008696 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24821 LKQLWRLIGLKLGYRARMYAN 21 SLAY-screened peptide P3171 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAAGCAGTTGTGGAGGCTTATTGGCCTCAAGCTCGGGTATCGTGCGCGCATGTACGCTAAC LKQLWRLIGLKLGYRARMYAN -1.515 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24822 PFWLYSDHHWS 11 SLAY-screened peptide P3172 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTCTGGTTGTACTCCGATCATCACTGGAGTTAGCCGTATCACAACCTTAGTAAGACCTAA PFWLYSDHHWS*PYHNLSKT* -1.514 0.000136 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24823 PAPALPHRLRRPCK 14 SLAY-screened peptide P3173 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCTCCGGCGCTCCCTCACCGTCTGAGGCGCCCGTGTAAGTAGGGGTACACGACTTTTTAA PAPALPHRLRRPCK*GYTTF* -1.514 0.033437 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24824 WFGTTCWFCAIHLDVENPKT 20 SLAY-screened peptide P3174 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTTTGGTACTACTTGTTGGTTCTGCGCCATCCATCTTGACGTCGAGAATCCGAAGACCTAA WFGTTCWFCAIHLDVENPKT* -1.514 0.001238 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24825 LHYCLIGLCKPPSPDTCIMK 20 SLAY-screened peptide P3175 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCATTATTGCCTCATTGGTCTGTGTAAGCCTCCTTCCCCTGACACCTGCATCATGAAGTAA LHYCLIGLCKPPSPDTCIMK* -1.514 0.016822 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24826 AQSPLLFALRAVFRAILGGLN 21 SLAY-screened peptide P3176 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCAGTCGCCGCTTCTCTTCGCGCTAAGGGCCGTATTCCGTGCAATACTCGGGGGCCTTAAC AQSPLLFALRAVFRAILGGLN -1.514 0.043768 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24827 FTRAQAQVTSYWH 13 SLAY-screened peptide P3177 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACTCGTGCCCAGGCTCAGGTTACCTCCTATTGGCATTAGTAGCCGATTCTGCGCTGCTAA FTRAQAQVTSYWH**PILRC* -1.514 0.007912 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24828 DPRHYDTPCIFDRDHSFILT 20 SLAY-screened peptide P3178 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCCCGTCACTATGACACTCCCTGCATCTTCGATCGTGATCATTCCTTTATTTTGACTTAA DPRHYDTPCIFDRDHSFILT* -1.513 0.00046 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24829 TNFNDPTVPQHMNHPMAIKI 20 SLAY-screened peptide P3179 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAACTTTAACGACCCTACGGTTCCCCAGCATATGAACCATCCTATGGCTATTAAGATCTAA TNFNDPTVPQHMNHPMAIKI* -1.513 0.007794 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24830 DRNYNDSTH 9 SLAY-screened peptide P3180 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCGCAACTACAATGATTCTACCCACTAGGGTAAGCATACTGACAAGACTCTCTACTCTTAA DRNYNDSTH*GKHTDKTLYS* -1.513 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24831 QSLVAVALLLLWTTFRACTFN 21 SLAY-screened peptide P3181 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAGCCTTGTTGCAGTTGCACTCTTATTACTTTGGACTACTTTTCGCGCCTGTACTTTTAAC QSLVAVALLLLWTTFRACTFN -1.513 0.000312 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24832 RQETCISICCGL 12 SLAY-screened peptide P3182 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCAGGAGACCTGTATCAGTATCTGCTGCGGCTTGTAGAGTAAGCTGCTGAATACTAAGTAA RQETCISICCGL*SKLLNTK* -1.512 0.036125 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24833 FARGQNQNPGNFTVLFMSKH 20 SLAY-screened peptide P3183 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGCGCGGGGCCAGAACCAGAATCCGGGTAATTTTACCGTCTTGTTCATGTCCAAGCATTAA FARGQNQNPGNFTVLFMSKH* -1.512 0.023521 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24834 PNQAALNNGLGGWQFRITVGN 21 SLAY-screened peptide P3184 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATCAGGCGGCTCTCAATAACGGTCTTGGCGGGTGGCAGTTTCGGATTACCGTAGGTAAC PNQAALNNGLGGWQFRITVGN -1.512 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24835 STRPLSIS 8 SLAY-screened peptide P3185 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTACCAGGCCGCTTAGTATCTCGTAGCACCATTAGGTTGTCTCTTTTCATGAGTATTTCTAA STRPLSIS*HH*VVSFHEYF* -1.512 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24836 STRADSCPPWLSPFCLFVLR 20 SLAY-screened peptide P3186 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGACTCGGGCTGACTCGTGTCCCCCCTGGTTGAGTCCGTTCTGCCTTTTCGTGCTCCGTTAA STRADSCPPWLSPFCLFVLR* -1.511 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24837 FTNVA 5 SLAY-screened peptide P3187 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACCAACGTTGCCTAGACTCACCCTTCGTCCACGGACCAGCGTTTCCGCGTGGCCAAGTAA FTNVA*THPSSTDQRFRVAK* -1.511 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24838 VYCQNPRHVYS 11 SLAY-screened peptide P3188 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTATTGCCAGAATCCGCGGCATGTTTACTCTTAGCATTCTCGGACGCGCCATAACAATTAA VYCQNPRHVYS*HSRTRHNN* -1.511 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24839 ITSEDHGYSPHFIYYLVDSI 20 SLAY-screened peptide P3189 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTACTAGCGAGGACCACGGTTATTCCCCGCATTTTATTTACTACCTGGTTGACTCTATTTAA ITSEDHGYSPHFIYYLVDSI* -1.511 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24840 PLSHTLPGHQRRASTNPWVH 20 SLAY-screened peptide P3190 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTTCCCATACGCTCCCGGGCCACCAGAGGCGGGCCTCTACGAACCCCTGGGTCCATTAA PLSHTLPGHQRRASTNPWVH* -1.511 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24841 MGTNSPAALHNVEVFSILLV 20 SLAY-screened peptide P3191 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGGTACGAATTCGCCCGCCGCCCTCCATAACGTTGAGGTTTTTTCTATTCTCTTGGTTTAA MGTNSPAALHNVEVFSILLV* -1.511 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24842 YNGSNLCIAMHNNCHINIYR 20 SLAY-screened peptide P3192 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAATGGGTCCAACTTGTGTATCGCCATGCACAATAACTGTCACATCAACATTTACAGGTAA YNGSNLCIAMHNNCHINIYR* -1.511 0.000389 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24843 APC 3 SLAY-screened peptide P3193 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCTTGCTAGACCGTGGACGGGTGCCCGGGTATGCCCTCCCTTCTCAAGTGTTCTTCGTAA APC*TVDGCPGMPSLLKCSS* -1.511 0.010338 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24844 TACARRAALYTHHL 14 SLAY-screened peptide P3194 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCCTGTGCCCGCCGCGCCGCTCTCTACACCCATCACCTGTAGTCTCTGATTACTTCTTAA TACARRAALYTHHL*SLITS* -1.511 0.011675 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24845 VDSWNFIASTYRPLNAGPPN 20 SLAY-screened peptide P3195 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGATTCGTGGAATTTTATTGCCAGTACGTACAGGCCTTTGAACGCTGGCCCGCCTAATTAA VDSWNFIASTYRPLNAGPPN* -1.511 0.000478 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24846 IVWANLRRFLNLDNTVHRCM 20 SLAY-screened peptide P3196 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGTCTGGGCCAACTTGCGGCGCTTCCTTAATTTGGACAATACCGTGCACCGTTGTATGTAA IVWANLRRFLNLDNTVHRCM* -1.51 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24847 YCDIISTAYDKLRTFLMAVR 20 SLAY-screened peptide P3197 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTGCGATATTATCAGCACCGCTTATGACAAGCTTAGGACCTTTCTGATGGCGGTCCGTTAA YCDIISTAYDKLRTFLMAVR* -1.51 0.00013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24848 TTREGPIRVNGLMHLIIDVY 20 SLAY-screened peptide P3198 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACGCGCGAGGGCCCGATCCGGGTCAACGGGCTCATGCATCTCATTATCGACGTCTACTAA TTREGPIRVNGLMHLIIDVY* -1.51 0.000306 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24849 LVKLARFVCNVLRIVRCKCA 20 SLAY-screened peptide P3199 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTGAAGCTCGCCAGGTTTGTCTGCAATGTTTTGCGCATCGTTCGGTGCAAGTGCGCGTAA LVKLARFVCNVLRIVRCKCA* -1.509 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24850 KTTFRITSCVILQYAGVYLS 20 SLAY-screened peptide P3200 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGACCACGTTTCGCATCACGAGCTGCGTCATCCTCCAGTACGCGGGTGTTTATCTTTCGTAA KTTFRITSCVILQYAGVYLS* -1.509 0.005297 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24851 CRQDNPSFYFHKITANTFSN 20 SLAY-screened peptide P3201 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCGGCAGGACAACCCTAGCTTCTATTTTCACAAGATTACCGCCAATACGTTCAGTAACTGA CRQDNPSFYFHKITANTFSN* -1.509 0.00006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24852 PNCYAMRTTRNSTSSKSCTL 20 SLAY-screened peptide P3202 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAACTGCTACGCTATGCGTACTACCAGGAACTCGACCTCTTCGAAGTCTTGTACGCTCTAA PNCYAMRTTRNSTSSKSCTL* -1.509 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24853 CVNTGYARKNPLRACGPFPT 20 SLAY-screened peptide P3203 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGTGAACACCGGCTACGCTCGGAAGAATCCTCTCCGCGCCTGCGGGCCGTTCCCCACTTAA CVNTGYARKNPLRACGPFPT* -1.509 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24854 SASLALYQRRNVTQRLRGWS 20 SLAY-screened peptide P3204 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCTTCTCTCGCCCTTTACCAGCGCCGTAATGTTACGCAGCGCCTGCGGGGGTGGTCCTAA SASLALYQRRNVTQRLRGWS* -1.508 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24855 FRSRHIGLTCR 11 SLAY-screened peptide P3205 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCGCTCTAGGCATATTGGGCTCACTTGTCGCTAGAACAGTCTTCAGATTCTGAAGATCTAA FRSRHIGLTCR*NSLQILKI* -1.508 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24856 SLDASSPHHLAAPGTFAYGS 20 SLAY-screened peptide P3206 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCTGGACGCCTCGTCGCCTCACCATCTCGCCGCCCCTGGCACTTTCGCGTATGGGTCCTAA SLDASSPHHLAAPGTFAYGS* -1.508 0.039416 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24857 PYD 3 SLAY-screened peptide P3207 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTACGACTAGGATGTCAACACCGGTACGTTTCGTATTTGCACTTATTCTGCCCGTGGCTAA PYD*DVNTGTFRICTYSARG* -1.508 0.000055 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24858 VYCLRCLFRFYSCQLKSPHK 20 SLAY-screened peptide P3208 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTACTGCCTGCGTTGCCTTTTCCGCTTTTATAGCTGCCAGCTGAAGTCTCCTCACAAGTAA VYCLRCLFRFYSCQLKSPHK* -1.507 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24859 HMTHLPTRPHLQYNGHSMNV 20 SLAY-screened peptide P3209 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACATGACTCACCTCCCTACGCGGCCGCACCTTCAGTACAATGGCCATTCTATGAACGTTTAA HMTHLPTRPHLQYNGHSMNV* -1.507 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24860 AIPTMPTPRCRPFNLVIERT 20 SLAY-screened peptide P3210 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTATTCCCACGATGCCCACTCCTCGTTGCCGGCCTTTCAACCTCGTCATTGAGCGCACTTAA AIPTMPTPRCRPFNLVIERT* -1.506 0.000204 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24861 PLHHTILPPS 10 SLAY-screened peptide P3211 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCCATCATACCATCCTGCCTCCTTCGTAGCGTCCTTCGCTTAGTCGTACTGACCCTTAA PLHHTILPPS*RPSLSRTDP* -1.506 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24862 QARALCAM 8 SLAY-screened peptide P3212 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGCCCGGGCCTTGTGCGCTATGTAGTGCAGCATTAGGTGGAACCATGATGTGAATCTCTAA QARALCAM*CSIRWNHDVNL* -1.506 0.019644 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24863 ALHHCFNYFSAHTWPDRWQK 20 SLAY-screened peptide P3213 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTTGCACCATTGTTTCAATTATTTCAGTGCGCACACCTGGCCTGATCGCTGGCAGAAGTAA ALHHCFNYFSAHTWPDRWQK* -1.506 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24864 CHQGRPAHLN 10 SLAY-screened peptide P3214 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACCAGGGCCGCCCTGCCCATCTCAATTAGTACATTACGAATCACTAGTACTATGGTTAA CHQGRPAHLN*YITNH*YYG* -1.506 0.027259 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24865 MIKP 4 SLAY-screened peptide P3215 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGATTAAGCCGTAGCCTGCCCAGGTCAGTGCTGCTACCACTCACTATTACTATTATCCTTAA MIKP*PAQVSAATTHYYYYP* -1.506 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24866 LCIFKLILVGMIPISRPWRTN 21 SLAY-screened peptide P3216 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTGCATCTTTAAGCTGATCCTTGTGGGCATGATTCCGATCTCTAGACCATGGAGAACTAAC LCIFKLILVGMIPISRPWRTN -1.506 0.000242 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24867 PSDNLHLQILVPITTNYHSD 20 SLAY-screened peptide P3217 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCGACAATCTGCACCTGCAGATTCTCGTCCCTATCACTACTAATTACCATAGCGATTAA PSDNLHLQILVPITTNYHSD* -1.505 0.003437 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24868 RPY 3 SLAY-screened peptide P3218 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCGTATTAGATTAGGGACCTCAAGAATAATCTCTGCTAGACCAACGTTGTCGAGATCTAA RPY*IRDLKNNLC*TNVVEI* -1.505 0.000163 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24869 PYQSYPLYSRIKPIFINFCP 20 SLAY-screened peptide P3219 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTACCAGAGTTATCCCCTGTATTCGAGGATCAAGCCCATTTTTATTAACTTCTGCCCGTAA PYQSYPLYSRIKPIFINFCP* -1.504 0.000041 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24870 AVVKRSHRCKTGQRAPLL 18 SLAY-screened peptide P3220 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGTTGTCAAGCGTAGTCATAGGTGTAAGACTGGCCAGCGGGCGCCGCTTCTGTAGACTTAA AVVKRSHRCKTGQRAPLL*T* -1.504 0.009408 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24871 SV 2 SLAY-screened peptide P3221 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGTCTAGATCCATCTCGGGATTGGTCCGACGAGTAATTACACTTCTGCTGTGGGTGTGTAA SV*IHLGIGPTSNYTSAVGV* -1.504 0.002142 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24872 ATNGILHLQIKVTCPLTFGP 20 SLAY-screened peptide P3222 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTACCAACGGCATCTTGCATCTGCAGATTAAGGTTACTTGCCCCTTGACCTTTGGTCCCTAA ATNGILHLQIKVTCPLTFGP* -1.503 0.010039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24873 PWLFDSFVSVIRWLRHRLGH 20 SLAY-screened peptide P3223 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGGTTGTTTGATTCCTTCGTCTCTGTCATTCGTTGGCTGCGCCATCGTCTTGGTCATTAA PWLFDSFVSVIRWLRHRLGH* -1.503 0.02103 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24874 PNPKIYNSTIRRTNFTVVSY 20 SLAY-screened peptide P3224 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAACCCCAAGATCTATAATAGTACGATTCGGCGTACCAATTTTACTGTCGTCTCCTATTAA PNPKIYNSTIRRTNFTVVSY* -1.503 0.001333 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24875 FPLVI 5 SLAY-screened peptide P3225 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCCCCTCGTTATCTAGCGGAATTACAAGGTTAAGGCTTCTATCCAGCATCACAATAACTAA FPLVI*RNYKVKASIQHHNN* -1.503 0.004322 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24876 LPALVIHHHYNIILGGLGRL 20 SLAY-screened peptide P3226 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCGGCTCTGGTGATTCATCACCATTACAATATCATCCTTGGCGGCTTGGGTAGGCTGTAA LPALVIHHHYNIILGGLGRL* -1.503 0.049698 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24877 SVTCGSTAACRIHADNSHAP 20 SLAY-screened peptide P3227 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGTGACTTGCGGCTCCACTGCGGCGTGCCGCATTCATGCCGATAACTCGCATGCCCCCTAA SVTCGSTAACRIHADNSHAP* -1.502 0.010039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24878 RLSAQTHSQTSANYRCRLNP 20 SLAY-screened peptide P3228 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTTTCGGCTCAGACTCATAGCCAGACCTCCGCCAACTACCGTTGTCGTCTTAATCCTTAA RLSAQTHSQTSANYRCRLNP* -1.502 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24879 LSNALPTILGYDSSTAGLAD 20 SLAY-screened peptide P3229 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCTAACGCGCTGCCGACTATCCTTGGGTATGACTCCAGCACTGCGGGCCTTGCGGACTAA LSNALPTILGYDSSTAGLAD* -1.502 0.005505 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24880 HIRGRLCWITRSPSALMLPCN 21 SLAY-screened peptide P3230 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACATAAGAGGCCGATTATGCTGGATTACACGCTCACCCTCGGCCTTGATGCTGCCCTGTAAC HIRGRLCWITRSPSALMLPCN -1.501 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24881 WLSCRVALNFDISRIFIRRY 20 SLAY-screened peptide P3231 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCTTAGCTGTCGCGTTGCGCTTAATTTTGACATCTCTCGGATTTTTATTCGGCGCTATTAA WLSCRVALNFDISRIFIRRY* -1.501 0.001227 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24882 RNRRPMANSVSDPIGPSSNS 20 SLAY-screened peptide P3232 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGAACCGCCGGCCGATGGCTAACAGCGTCTCCGACCCCATTGGGCCTTCCTCTAACTCTTAA RNRRPMANSVSDPIGPSSNS* -1.501 0.00023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24883 NPWWFLLQPMYDCTGFHVYS 20 SLAY-screened peptide P3233 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCCGTGGTGGTTTCTTCTCCAGCCTATGTATGACTGCACGGGCTTCCACGTTTATAGTTAA NPWWFLLQPMYDCTGFHVYS* -1.501 0.000304 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24884 PRSMGALRPSSVLRDGSH 18 SLAY-screened peptide P3234 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGCAGTATGGGCGCATTACGACCTTCTTCTGTGCTTCGTGATGGATCCCACTAACTAACT PRSMGALRPSSVLRDGSH*LT -1.501 0.022443 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24885 LFLDKGHM 8 SLAY-screened peptide P3235 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTTCCTTGACAAGGGTCACATGTAGTTTGTCTTGAACGTTGACATGTCCATTCTTCTCTAA LFLDKGHM*FVLNVDMSILL* -1.501 0.000821 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24886 CPVL 4 SLAY-screened peptide P3236 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCTGTGCTGTAGATGCGGCTGCACAACAATTCTTCTTTGCCCTTTTCTGGCATGCGGTAA CPVL*MRLHNNSSLPFSGMR* -1.501 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24887 PPAHHDVAQDASCFVNVPGI 20 SLAY-screened peptide P3237 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCGGCTCACCACGACGTTGCGCAGGATGCGTCGTGTTTCGTTAATGTGCCGGGGATTTAA PPAHHDVAQDASCFVNVPGI* -1.5 0.002568 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24888 SGPDLTTSCNDNFMNLYYAI 20 SLAY-screened peptide P3238 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGGCCCCGATCTGACCACCAGTTGTAACGATAATTTTATGAACCTGTACTATGCCATCTAA SGPDLTTSCNDNFMNLYYAI* -1.5 0.020038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24889 SARLATRCPLPRAAPRLSRLN 21 SLAY-screened peptide P3239 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCAAGGCTCGCGACAAGATGTCCATTGCCAAGAGCTGCGCCTAGGCTATCTCGCCTTAAC SARLATRCPLPRAAPRLSRLN -1.5 0.00711 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24890 LRATQTPPLPHHLDELHYLA 20 SLAY-screened peptide P3240 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCGGGCGACTCAGACGCCTCCTCTGCCCCATCACCTGGATGAGCTTCACTATCTTGCTTAA LRATQTPPLPHHLDELHYLA* -1.5 0.011678 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24891 TSCDMPNDNTIGARAGSGISN 21 SLAY-screened peptide P3241 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAGTTGTGACATGCCCAATGACAACACGATAGGCGCTAGGGCGGGATCGGGAATTTCTAAC TSCDMPNDNTIGARAGSGISN -1.5 0.015454 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24892 PAATTLLLRLKRMLSRLAIYY 21 SLAY-screened peptide P3242 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTGCGACTACCCTTTTGCTCCGTTTGAAGCGCATGTTGTCCCGTCTGGCTATTTACTAC PAATTLLLRLKRMLSRLAIYY -1.499 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24893 ATQSSNNPIYADVIPGNVVF 20 SLAY-screened peptide P3243 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACGCAGAGCAGCAACAACCCCATTTATGCTGATGTTATTCCTGGCAACGTTGTTTTCTAA ATQSSNNPIYADVIPGNVVF* -1.499 0.000914 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24894 SHLR 4 SLAY-screened peptide P3244 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCACCTCCGTTAGTCAGTCCGATGTCGCTCAACCCGTCGGGCACCGATAGTACTGTGTAAC SHLR*SVRCRSTRRAPIVLCN -1.499 0.035867 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24895 LPRMCPYQAIPDSTYTYNYI 20 SLAY-screened peptide P3245 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCGCGTATGTGTCCGTACCAGGCGATTCCCGACTCGACCTATACCTACAACTATATCTAA LPRMCPYQAIPDSTYTYNYI* -1.498 0.039106 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24896 RPRYIAASPSGPNETLMTNA 20 SLAY-screened peptide P3246 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCCCGGTATATTGCCGCGAGTCCCTCCGGTCCCAACGAGACGCTTATGACTAACGCTTAA RPRYIAASPSGPNETLMTNA* -1.498 0.026332 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24897 GGVAYPPYVIGAFCYPVLPV 20 SLAY-screened peptide P3247 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGGGGTCGCTTACCCGCCGTATGTGATTGGTGCCTTCTGCTACCCTGTTTTGCCCGTGTAA GGVAYPPYVIGAFCYPVLPV* -1.498 0.045223 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24898 PRFSAPSCGCANHPTWHGHM 20 SLAY-screened peptide P3248 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCTTCTCTGCCCCCTCTTGCGGTTGTGCCAATCACCCTACCTGGCATGGGCACATGTAA PRFSAPSCGCANHPTWHGHM* -1.498 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24899 LHSDLCMVCYRINYSRFDYF 20 SLAY-screened peptide P3249 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCATTCGGATCTTTGCATGGTTTGCTATCGTATCAATTATAGCAGGTTTGATTACTTCTAA LHSDLCMVCYRINYSRFDYF* -1.498 0.001312 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24900 EPSRRAVVTTASGRIPIEKS 20 SLAY-screened peptide P3250 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCCCAGCAGGCGCGCTGTTGTTACTACCGCCAGTGGGCGTATTCCGATTGAGAAGTCCTAA EPSRRAVVTTASGRIPIEKS* -1.498 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24901 KPDAMCSYQASVHDFSYCYL 20 SLAY-screened peptide P3251 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCCTGACGCGATGTGTTCTTACCAGGCGAGCGTCCATGACTTTTCGTACTGCTATTTGTAA KPDAMCSYQASVHDFSYCYL* -1.498 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24902 DYPNTYEFMPYNRWCYRAFM 20 SLAY-screened peptide P3252 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTATCCTAACACCTACGAGTTTATGCCGTATAACCGTTGGTGCTATAGGGCTTTCATGTAA DYPNTYEFMPYNRWCYRAFM* -1.497 0.001323 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24903 PSSALFSLGSNVGIPPDVPL 20 SLAY-screened peptide P3253 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCTTCGGCTCTCTTTTCCCTCGGGTCTAACGTGGGCATCCCTCCGGATGTTCCGCTGTAA PSSALFSLGSNVGIPPDVPL* -1.497 0.000093 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24904 TAYQLTNLVVGSNFFTLDSV 20 SLAY-screened peptide P3254 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCTTATCAGTTGACCAATTTGGTGGTTGGTAGTAATTTCTTTACCCTTGACTCTGTGTAA TAYQLTNLVVGSNFFTLDSV* -1.497 0.000641 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24905 CVTVAPQNNAYDDTYKYYPV 20 SLAY-screened peptide P3255 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTTACCGTGGCCCCTCAGAACAATGCCTATGATGATACTTACAAGTATTATCCTGTGTAA CVTVAPQNNAYDDTYKYYPV* -1.497 0.002077 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24906 CLDDVHIGRAMPTWIAFTVH 20 SLAY-screened peptide P3256 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTGGATGATGTCCACATCGGTCGGGCTATGCCTACTTGGATTGCTTTTACTGTGCACTAA CLDDVHIGRAMPTWIAFTVH* -1.497 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24907 CS 2 SLAY-screened peptide P3257 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTCGTAGCATTGTCTCTTGTTCAAGGATCACCATATGTTTGTTACTTTTTGGACCATCTAA CS*HCLLFKDHHMFVTFWTI* -1.496 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24908 NTNCTNTPWPRIYTDYAGFL 20 SLAY-screened peptide P3258 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACCAATTGTACTAACACGCCCTGGCCGAGGATCTACACGGATTATGCTGGTTTCCTTTAA NTNCTNTPWPRIYTDYAGFL* -1.496 0.013085 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24909 PGHFFYVPCIQIDTLNHSSR 20 SLAY-screened peptide P3259 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGGTCATTTCTTTTATGTCCCGTGCATCCAGATTGATACCTTGAACCATTCTAGCCGTTAA PGHFFYVPCIQIDTLNHSSR* -1.496 0.000224 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24910 ALESPRRRCPPIFLQQEYEP 20 SLAY-screened peptide P3260 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCTCGAGTCCCCTCGTCGCCGGTGTCCGCCGATTTTCCTTCAGCAGGAGTACGAGCCCTAA ALESPRRRCPPIFLQQEYEP* -1.496 0.034066 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24911 RAPLAFVLLLHKRGTTHRPD 20 SLAY-screened peptide P3261 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCGCCCTTGGCTTTTGTTTTGCTGCTTCATAAGCGTGGTACCACCCACCGTCCCGATTAA RAPLAFVLLLHKRGTTHRPD* -1.496 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24912 RMRCPTNLDYKSHDGLCHAF 20 SLAY-screened peptide P3262 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATGCGCTGCCCCACTAACCTCGACTATAAGTCTCACGATGGCCTCTGCCACGCTTTTTAA RMRCPTNLDYKSHDGLCHAF* -1.496 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24913 TYAIHRCLSFARHTLDNHTI 20 SLAY-screened peptide P3263 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTACGCTATCCACCGGTGCCTTTCCTTTGCGCGGCATACTCTTGACAATCATACTATTTAA TYAIHRCLSFARHTLDNHTI* -1.496 0.00002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24914 FRQHCIPLIYLTDYDFHNKA 20 SLAY-screened peptide P3264 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCGGCAGCATTGCATCCCCCTCATCTACTTGACCGATTATGACTTTCACAACAAGGCGTAA FRQHCIPLIYLTDYDFHNKA* -1.495 0.0122 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24915 ERFFLSYCGYTSRDVCFYPS 20 SLAY-screened peptide P3265 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCGGTTCTTCCTGTCGTATTGCGGGTATACTTCGCGGGATGTCTGCTTCTATCCTAGTTAA ERFFLSYCGYTSRDVCFYPS* -1.495 0.001355 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24916 PAGMLLATAFPNTSMWHYPH 20 SLAY-screened peptide P3266 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCTGGCATGCTTCTTGCGACTGCTTTCCCCAATACTTCGATGTGGCATTACCCTCACTAA PAGMLLATAFPNTSMWHYPH* -1.495 0.000535 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24917 DCVVATTDRANKKIPLAYSH 20 SLAY-screened peptide P3267 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTGTGTTGTTGCGACGACCGATAGGGCCAACAAGAAGATCCCTCTTGCTTATTCTCACTAA DCVVATTDRANKKIPLAYSH* -1.495 0.000797 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24918 LDSYLKVYPPVTTKTDPMSR 20 SLAY-screened peptide P3268 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGACAGCTACCTTAAGGTCTACCCTCCTGTTACTACGAAGACGGATCCGATGTCTCGTTAA LDSYLKVYPPVTTKTDPMSR* -1.495 0.031086 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24919 CLYHISDS 8 SLAY-screened peptide P3269 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCTTTATCATATTTCTGACAGCTAGAACATTATTAAGCTCTCGCGTTCCACTAGTTGCTAA CLYHISDS*NIIKLSRSTSC* -1.495 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24920 AGPSPCQSWTTRSIISVRTSN 21 SLAY-screened peptide P3270 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGGCCCGTCTCCCTGCCAGAGTTGGACGACACGGTCAATTATTAGCGTCCGGACTTCTAAC AGPSPCQSWTTRSIISVRTSN -1.494 0.000308 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24921 HDSSMSRPWV 10 SLAY-screened peptide P3271 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGATTCCTCTATGTCTCGCCCGTGGGTTTAGTATCATCATGTTGACCTTAATTCTATGTAA HDSSMSRPWV*YHHVDLNSM* -1.494 0.002934 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24922 LMRWSVRTHRSHPSHKRGPH 20 SLAY-screened peptide P3272 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGATGCGCTGGAGTGTCCGTACGCACAGGAGTCATCCGAGCCACAAGAGGGGTCCTCATTAA LMRWSVRTHRSHPSHKRGPH* -1.494 0.000164 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24923 IHSITTFSYSDISLASPSTC 20 SLAY-screened peptide P3273 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCACTCTATCACCACCTTCAGTTACAGTGATATCAGCTTGGCCAGTCCCTCCACTTGTTAA IHSITTFSYSDISLASPSTC* -1.493 0.003566 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24924 PRSLLRANYDSIDTVYTSTA 20 SLAY-screened peptide P3274 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAGGAGCCTCCTCAGGGCCAACTACGATTCTATCGATACCGTTTACACGTCTACCGCGTAA PRSLLRANYDSIDTVYTSTA* -1.493 0.013286 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24925 AVTVTCACHTYCYFQQDRHI 20 SLAY-screened peptide P3275 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGTGACCGTGACCTGTGCCTGTCATACCTATTGCTACTTCCAGCAGGATAGGCATATCTAA AVTVTCACHTYCYFQQDRHI* -1.493 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24926 CGLTNDEARYCGSSFCSISTN 21 SLAY-screened peptide P3276 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGGTCTCACTAATGACGAGGCCAGGTACTGCGGGTCCAGTTTTTGTTCAATATCAACTAAC CGLTNDEARYCGSSFCSISTN -1.492 0.000267 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24927 PGSYVFAPLVLVWPILSVRT 20 SLAY-screened peptide P3277 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGCTCCTACGTGTTCGCCCCTCTGGTTCTGGTCTGGCCGATTCTGTCTGTCCGTACTTAA PGSYVFAPLVLVWPILSVRT* -1.492 0.00348 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24928 STMPGSTLHGHCHIFPVSSI 20 SLAY-screened peptide P3278 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACCATGCCCGGCAGCACTCTTCACGGCCACTGTCACATCTTCCCCGTGTCCAGTATTTAA STMPGSTLHGHCHIFPVSSI* -1.492 0.003319 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24929 PSLTPLCCPDDLKPRQVWLT 20 SLAY-screened peptide P3279 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCCCTTACGCCCCTCTGTTGCCCCGATGACCTTAAGCCCAGGCAGGTTTGGCTCACGTAA PSLTPLCCPDDLKPRQVWLT* -1.492 0.001706 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24930 NTNTLTFSHASDLDHTGTLY 20 SLAY-screened peptide P3280 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACTAATACGCTCACCTTTAGCCACGCCTCTGACCTGGACCACACCGGCACTCTGTATTAA NTNTLTFSHASDLDHTGTLY* -1.492 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24931 CKINNTTLDARYHPSNTVAN 20 SLAY-screened peptide P3281 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAAGATTAATAATACTACGCTGGACGCTAGGTATCACCCCTCGAACACGGTCGCTAATTAA CKINNTTLDARYHPSNTVAN* -1.492 0.037241 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24932 CRYAHCVSLFPNASFINQVV 20 SLAY-screened peptide P3282 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCGCTACGCCCACTGCGTTAGCTTGTTTCCCAACGCGAGTTTTATCAACCAGGTGGTGTAA CRYAHCVSLFPNASFINQVV* -1.492 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24933 WSPLDVILAGNHPHSGTLWI 20 SLAY-screened peptide P3283 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTCCCCCCTTGATGTTATTCTCGCTGGCAACCACCCCCATAGTGGGACGCTGTGGATCTAA WSPLDVILAGNHPHSGTLWI* -1.491 0.031237 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24934 PANIDGWPRRAYCVKSISDT 20 SLAY-screened peptide P3284 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCTAATATCGATGGCTGGCCGAGGCGCGCTTACTGTGTCAAGAGCATTTCGGATACCTAA PANIDGWPRRAYCVKSISDT* -1.491 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24935 HCCAKYQLSPSSDVCFYNRS 20 SLAY-screened peptide P3285 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGCTGTGCTAAGTACCAGCTTTCGCCTAGTAGTGATGTGTGTTTTTATAACCGCTCTTAA HCCAKYQLSPSSDVCFYNRS* -1.491 0.013837 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24936 TTPLSNWLDSVLDTPATTIR 20 SLAY-screened peptide P3286 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACCCCCCTTTCGAACTGGTTGGACTCTGTGCTGGACACTCCTGCTACGACGATCCGTTAA TTPLSNWLDSVLDTPATTIR* -1.491 0.005491 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24937 ASKCVRLTFALIVINVYKGN 20 SLAY-screened peptide P3287 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTCCAAGTGTGTTCGCCTTACTTTCGCTCTTATTGTGATTAACGTGTACAAGGGTAATTAA ASKCVRLTFALIVINVYKGN* -1.49 0.007762 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24938 TNYLPGLQKSYVLHYATNIV 20 SLAY-screened peptide P3288 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAACTATTTGCCCGGCCTCCAGAAGAGTTATGTGCTTCATTATGCTACCAATATTGTTTAA TNYLPGLQKSYVLHYATNIV* -1.49 0.003317 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24939 IPSYLNFFLAPHCYYTTHFL 20 SLAY-screened peptide P3289 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCGTCGTACTTGAACTTTTTCTTGGCGCCCCATTGTTATTACACTACTCACTTCTTGTAA IPSYLNFFLAPHCYYTTHFL* -1.49 0.012829 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24940 SANDFNGYPTGIVQYIFCRP 20 SLAY-screened peptide P3290 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCGAATGATTTTAACGGTTACCCCACGGGCATCGTCCAGTATATCTTCTGCCGTCCCTAA SANDFNGYPTGIVQYIFCRP* -1.49 0.000482 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24941 RCAHTARFPELTVSTPEMETY 21 SLAY-screened peptide P3291 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGCGCGCACACGGCTCGTTTTCCTGAGCTTACGGTTTCCACCCCTGAGATGGAGACTTAC RCAHTARFPELTVSTPEMETY -1.489 0.00038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24942 TTRCGSHNSNPYIALPQLNI 20 SLAY-screened peptide P3292 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACCCGTTGTGGCTCCCACAACTCGAATCCGTATATTGCGCTGCCTCAGTTGAACATCTAA TTRCGSHNSNPYIALPQLNI* -1.489 0.020396 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24943 MSNYITRYQNLGTLWSPDNV 20 SLAY-screened peptide P3293 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTCCAATTACATTACCCGCTATCAGAATCTCGGTACTCTGTGGTCCCCTGACAATGTCTAA MSNYITRYQNLGTLWSPDNV* -1.489 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24944 SSFDKPYVYSLLLGIPYTCY 20 SLAY-screened peptide P3294 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTCCTTTGATAAGCCCTACGTTTACTCCTTGCTTCTTGGCATTCCCTATACGTGTTACTAA SSFDKPYVYSLLLGIPYTCY* -1.489 0.006986 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24945 IACFLDPGAHFPMMDQNTNL 20 SLAY-screened peptide P3295 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGCTTGCTTTTTGGATCCTGGCGCCCATTTTCCCATGATGGATCAGAACACCAACCTTTAA IACFLDPGAHFPMMDQNTNL* -1.489 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24946 SCQAPPPNIWTRYVLTASIL 20 SLAY-screened peptide P3296 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTGTCAGGCTCCGCCGCCCAATATCTGGACCCGGTATGTCCTCACCGCTAGTATCTTGTAA SCQAPPPNIWTRYVLTASIL* -1.488 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24947 YPACCQMPTSNTWCPLWKAF 20 SLAY-screened peptide P3297 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCTGCTTGTTGCCAGATGCCCACCAGTAACACGTGGTGTCCTTTGTGGAAGGCCTTTTAA YPACCQMPTSNTWCPLWKAF* -1.488 0.006871 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24948 TTPSSYSPWRRWLHFFS 17 SLAY-screened peptide P3298 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACCCCTAGTTCCTATTCTCCCTGGCGCCGTTGGCTTCACTTTTTTTCGTAGCTCGAGTAA TTPSSYSPWRRWLHFFS*LE* -1.488 0.005469 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24949 SHVTGIPNTGHPSRSALANV 20 SLAY-screened peptide P3299 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCACGTCACCGGCATTCCTAATACGGGCCACCCGTCCCGGAGTGCCTTGGCTAATGTTTAA SHVTGIPNTGHPSRSALANV* -1.488 0.002882 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24950 HVPT 4 SLAY-screened peptide P3300 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGTGCCGACCTAGCCGTCCCTCAACACGCACACTCATAATTCTAATAACCACGAGGGTTAA HVPT*PSLNTHTHNSNNHEG* -1.487 0.03846 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24951 LRSTMTGSETLAVTHLSKSTC 21 SLAY-screened peptide P3301 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGGAGCACTATGACTGGTTCCGAAACCCTGGCCGTAACCCATTTGAGTAAGTCGACCTGC LRSTMTGSETLAVTHLSKSTC -1.486 0.002414 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24952 HPPTLCRAHKRYNRS 15 SLAY-screened peptide P3302 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCCCCCACGCTCTGCCGTGCCCACAAGCGCTACAATCGTTCTTAGGGGCCGCTTCTGTAA HPPTLCRAHKRYNRS*GPLL* -1.486 0.000438 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24953 FWCVPPFSLNLHRALYYWSL 20 SLAY-screened peptide P3303 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTGGTGTGTCCCCCCGTTTTCTCTTAACTTGCACCGTGCTCTCTATTATTGGTCCTTGTAA FWCVPPFSLNLHRALYYWSL* -1.485 0.00014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24954 PLCALLKILVYYRINHCKRT 20 SLAY-screened peptide P3304 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTTGTGCGCTCCTTAAGATCCTTGTCTACTACCGTATTAACCATTGCAAGCGGACCTAA PLCALLKILVYYRINHCKRT* -1.485 0.000623 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24955 APVHSVADVAYLSCFVLEPQ 20 SLAY-screened peptide P3305 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCGGTGCATAGCGTTGCTGATGTCGCTTATCTGTCGTGCTTTGTACTTGAACCGCAATAA APVHSVADVAYLSCFVLEPQ* -1.485 0.001485 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24956 RYTGHAWSAQNKFNLMYVVL 20 SLAY-screened peptide P3306 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTATACCGGCCACGCCTGGTCTGCTCAGAACAAGTTTAATCTTATGTATGTTGTTCTCTAA RYTGHAWSAQNKFNLMYVVL* -1.485 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24957 LSIESSVM 8 SLAY-screened peptide P3307 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTCGATCGAGTCTTCTGTCATGTAGCCCCAGGTCGTAGCATGAGGTCGATGATATGGGTTA LSIESSVM*PQVVA*GR*YGL -1.484 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24958 HATNSYVLNESWPYSSH 17 SLAY-screened peptide P3308 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCTACGAACAGTTATGTGCTCAACGAGTCCTGGCCCTATTCCAGCCACTAGCACCCCTAA HATNSYVLNESWPYSSH*HP* -1.484 0.000165 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24959 CTAQNFKYL 9 SLAY-screened peptide P3309 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGGTGTACTGCCCAGAACTTTAAGTATCTTTAGCGTCGCACTGGCATCAATTTTAAGTAACTGAGT CTAQNFKYL*RRTGINFK*LS -1.483 0.039132 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24960 FVFSLVVSTPVLSICISILPN 21 SLAY-screened peptide P3310 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGTATTCTCCCTAGTAGTGAGCACCCCAGTTTTGTCCATATGCATCAGCATTTTGCCTAAC FVFSLVVSTPVLSICISILPN -1.483 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24961 NRLATHTSFLPVSLRPGRGC 20 SLAY-screened peptide P3311 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCGCCTCGCCACGCACACTTCTTTTCTCCCCGTCAGCTTGCGCCCTGGCCGCGGCTGTTAA NRLATHTSFLPVSLRPGRGC* -1.483 0.000335 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24962 CRPLEWKQPFQVYGL 15 SLAY-screened peptide P3312 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAGGCCCCTGGAGTGGAAGCAGCCTTTTCAGGTCTATGGCTTGTAGAATTTCAGCAATTAA CRPLEWKQPFQVYGL*NFSN* -1.483 0.006635 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24963 QNLYLLSIPTTYFFVSSMLW 20 SLAY-screened peptide P3313 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAATTTGTACCTCCTTTCTATTCCCACGACTTATTTTTTCGTTAGCTCCATGCTGTGGTAA QNLYLLSIPTTYFFVSSMLW* -1.483 0.001318 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24964 HCFWDRYFFNAPTYLHVRNV 20 SLAY-screened peptide P3314 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTGTTTCTGGGACCGCTACTTTTTCAATGCCCCTACGTATCTTCACGTGCGCAATGTTTAA HCFWDRYFFNAPTYLHVRNV* -1.483 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24965 LSLYYQTTSVLVVTYTTKIH 20 SLAY-screened peptide P3315 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCCCTTTACTACCAGACGACGTCCGTTCTCGTTGTCACTTACACCACCAAGATCCACTAA LSLYYQTTSVLVVTYTTKIH* -1.482 0.003488 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24966 GCTRTGTIPYYLYAAYTMSN 20 SLAY-screened peptide P3316 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTGCACGCGTACTGGTACTATTCCCTACTACCTCTATGCCGCCTACACTATGAGCAACTAA GCTRTGTIPYYLYAAYTMSN* -1.482 0.000197 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24967 SRRCITVPTQ 10 SLAY-screened peptide P3317 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGCCGTTGTATCACGGTTCCCACCCAGTAGTATTACGTCCGCGATGACGTGGTTCCGTAA SRRCITVPTQ*YYVRDDVVP* -1.482 0.000153 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24968 SNLVPCHTISPNNTYITTAL 20 SLAY-screened peptide P3318 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAACCTCGTGCCTTGTCATACCATTAGCCCCAATAATACCTACATCACTACCGCGTTGTAA SNLVPCHTISPNNTYITTAL* -1.481 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24969 GGRCTYPPSLGSTPVITSII 20 SLAY-screened peptide P3319 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGGTCGGTGCACCTACCCTCCTAGTCTTGGTAGTACCCCGGTGATTACCAGTATTATTTAA GGRCTYPPSLGSTPVITSII* -1.481 0.016676 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24970 SNSIGKLSAVDSSCSYCISSN 21 SLAY-screened peptide P3320 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAATTCCATTGGCAAGCTTAGTGCCGTCGATAGCTCTTGCAGCTATTGCATAAGCTCTAAC SNSIGKLSAVDSSCSYCISSN -1.481 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24971 NAGHGPCGVKHLI 13 SLAY-screened peptide P3321 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGCCGGGCACGGCCCCTGTGGCGTTAAGCACCTTATTTAGTCGTGCCGTACTTTTAGTTAA NAGHGPCGVKHLI*SCRTFS* -1.481 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24972 PLSPFTSHSSSTKRAHGAE 19 SLAY-screened peptide P3322 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGTCCCCTTTCACCTCGCATTCGTCCTCGACTAAGCGTGCTCATGGTGCTGAGTAAGTC PLSPFTSHSSSTKRAHGAE*V -1.48 0.00264 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24973 SVTPIYSPHPDYTST 15 SLAY-screened peptide P3323 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGTGACCCCCATTTACAGCCCCCACCCGGATTACACGTCTACGTAGGTGGATGTGGACTAA SVTPIYSPHPDYTST*VDVD* -1.48 0.00005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24974 CIGPKRCLPEDYKSRRPMCPN 21 SLAY-screened peptide P3324 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCATCGGTCCCAAGCGCTGCCTCCCTGAGGACTACAAGAGTCGGAGGCCGATGTGCCCTAAC CIGPKRCLPEDYKSRRPMCPN -1.48 0.044403 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24975 GPRLSAFTNWYLLYIRPVID 20 SLAY-screened peptide P3325 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCCCCGCCTGTCGGCCTTTACTAACTGGTACCTTCTGTATATTCGCCCCGTGATCGACTAA GPRLSAFTNWYLLYIRPVID* -1.479 0.001977 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24976 TDADGGSWLPFQRHPHNDEQ 20 SLAY-screened peptide P3326 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGACGCCGACGGCGGGTCGTGGCTGCCCTTTCAGAGGCACCCGCATAATGACGAGCAGTAA TDADGGSWLPFQRHPHNDEQ* -1.479 0.000844 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24977 NGDPSQFSNPAHFIAVYSDT 20 SLAY-screened peptide P3327 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGGCGACCCGTCCCAGTTTAGTAATCCTGCTCATTTCATTGCCGTTTATAGTGACACTTAA NGDPSQFSNPAHFIAVYSDT* -1.479 0.042171 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24978 VACFKRSNPAYALVSLMSALN 21 SLAY-screened peptide P3328 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGCCTGCTTTAAGCGCTCGAATCCCGCGTATGCGTTAGTTAGCCTTATGTCTGCACTTAAC VACFKRSNPAYALVSLMSALN -1.479 0.00797 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24979 YAPCATFNLQPFPVITT 17 SLAY-screened peptide P3329 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCGCCTTGTGCTACGTTTAACCTTCAGCCGTTCCCTGTGATTACGACTTAGAATGCCTAA YAPCATFNLQPFPVITT*NA* -1.479 0.004815 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24980 PTLQAQSHSNKS 12 SLAY-screened peptide P3330 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACCCTGCAGGCCCAGTCCCATAGCAATAAGAGTTAGGCTACCCACTAGTCTCCCCCGTAA PTLQAQSHSNKS*ATH*SPP* -1.478 0.00384 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24981 GARPSSTRSGLLPSRIFLGFN 21 SLAY-screened peptide P3331 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGCTAGACCGTCATCTACACGGAGCGGTCTATTGCCCAGTAGGATTTTTCTCGGTTTTAAC GARPSSTRSGLLPSRIFLGFN -1.478 0.045295 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24982 TYATTTNIIGHLRFGLWYTG 20 SLAY-screened peptide P3332 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTACGCCACTACCACGAACATTATTGGCCATCTGCGTTTCGGCCTGTGGTACACCGGCTAA TYATTTNIIGHLRFGLWYTG* -1.478 0.000158 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24983 PNSFSIVYCGNTDLKYRTNS 20 SLAY-screened peptide P3333 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAATAGCTTCAGCATTGTTTACTGTGGGAACACCGATTTGAAGTACCGCACCAATAGTTAA PNSFSIVYCGNTDLKYRTNS* -1.478 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24984 TVNRVTFLSHLDPRLTPYRR 20 SLAY-screened peptide P3334 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTGAATCGGGTTACCTTCTTGTCTCATCTTGACCCTCGCCTGACGCCGTATAGGAGGTAA TVNRVTFLSHLDPRLTPYRR* -1.478 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24985 LKSHTGLPVSTHVSMLNYIN 20 SLAY-screened peptide P3335 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAAGTCCCATACGGGCCTGCCTGTGTCCACTCACGTTAGTATGTTGAACTACATCAACTAA LKSHTGLPVSTHVSMLNYIN* -1.477 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24986 CAGSHILGTRSPRRCCRGLIN 21 SLAY-screened peptide P3336 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCCGGTTCTCATATCCTTGGCACCCGGTCACCACGAAGGTGTTGCCGAGGCCTCATTAAC CAGSHILGTRSPRRCCRGLIN -1.477 0.010536 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24987 PKTASCVALPAILPRLAWVGN 21 SLAY-screened peptide P3337 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAAAACCGCGAGTTGCGTCGCTCTACCTGCCATACTGCCACGACTTGCCTGGGTGGGTAAC PKTASCVALPAILPRLAWVGN -1.477 0.006275 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24988 LRIPNCSIAFNFHIHKRVMQ 20 SLAY-screened peptide P3338 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGAGGATCCCCAATTGTTCTATTGCTTTTAATTTTCACATTCACAAGCGGGTTATGCAGTAA LRIPNCSIAFNFHIHKRVMQ* -1.476 0.003902 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24989 PSTISPIPKVLLHKTSLTDI 20 SLAY-screened peptide P3339 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCGACCATCAGTCCCATTCCTAAGGTGCTTCTCCACAAGACTTCGCTTACGGATATCTAA PSTISPIPKVLLHKTSLTDI* -1.476 0.001248 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24990 RTFPSWRRSSPISWPYRYTT 20 SLAY-screened peptide P3340 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGACGTTTCCCAGTTGGAGGCGCTCGAGTCCCATTTCTTGGCCCTATCGTTACACCACGTAA RTFPSWRRSSPISWPYRYTT* -1.476 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24991 HSPHFDALYNMYIFVSGSLF 20 SLAY-screened peptide P3341 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCTCCGCACTTTGACGCGCTTTACAATATGTACATTTTTGTCAGCGGTTCGTTGTTCTAA HSPHFDALYNMYIFVSGSLF* -1.476 0.000047 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24992 DDGFGSKITFV 11 SLAY-screened peptide P3342 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGACGGTTTCGGGAGCAAGATCACGTTTGTTTAGCGGTCTGTTCCTGTTCGCGCGTACTAA DDGFGSKITFV*RSVPVRAY* -1.476 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24993 SLGRFCPVVELPYLIAHGRR 20 SLAY-screened peptide P3343 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCTCGGGCGGTTTTGCCCTGTGGTTGAGCTGCCGTATCTTATTGCGCACGGGCGGCGCTAA SLGRFCPVVELPYLIAHGRR* -1.476 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24994 PYVPHNPPNAAILALPFSSN 20 SLAY-screened peptide P3344 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTATGTGCCCCACAATCCGCCGAATGCGGCGATCCTGGCGCTACCGTTCAGCTCTAACTGA PYVPHNPPNAAILALPFSSN* -1.476 0.000504 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24995 TCVFQPTNPPSMPYTIIQTT 20 SLAY-screened peptide P3345 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTGCGTCTTTCAGCCGACTAACCCGCCCTCGATGCCTTACACCATCATCCAGACTACTTAA TCVFQPTNPPSMPYTIIQTT* -1.476 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24996 PTGLRTLLSYSWLRDDLRRS 20 SLAY-screened peptide P3346 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACGGGCTTGAGGACCCTGCTTTCCTATAGTTGGCTCCGTGACGATCTTCGTCGCTCCTAA PTGLRTLLSYSWLRDDLRRS* -1.476 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24997 CYTPDYGRPPQTLPLTTFLF 20 SLAY-screened peptide P3347 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTACACTCCTGATTACGGCAGGCCTCCGCAGACGCTCCCCCTGACCACTTTCCTTTTTTAA CYTPDYGRPPQTLPLTTFLF* -1.475 0.01068 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24998 TQGTRTTYPASPCPDKWHTT 20 SLAY-screened peptide P3348 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCAGGGCACGCGCACCACTTACCCTGCCTCTCCCTGTCCCGACAAGTGGCACACCACCTAA TQGTRTTYPASPCPDKWHTT* -1.475 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP24999 FYTLRTVAARNNLPFRLVRGN 21 SLAY-screened peptide P3349 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTATACTTTGCGGACTGTTGCTGCTAGGAACAACCTTCCTTTTAGACTAGTGCGGGGTAAC FYTLRTVAARNNLPFRLVRGN -1.475 0.02813 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25000 HNRCRALCNFA 11 SLAY-screened peptide P3350 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAACCGCTGTAGGGCTCTCTGTAACTTCGCTTAGTCCATCTCTAATAGCCCTCACAGTTAA HNRCRALCNFA*SISNSPHS* -1.475 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25001 NRFQLAIAYALFTTTTLIHP 20 SLAY-screened peptide P3351 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCGTTTTCAGCTCGCCATTGCGTATGCTTTGTTTACTACCACTACCCTCATTCATCCCTAA NRFQLAIAYALFTTTTLIHP* -1.474 0.000047 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25002 HMKVARHKMPNHPSFFNHDSY 21 SLAY-screened peptide P3352 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACATGAAGGTGGCCCGCCACAAGATGCCCAACCATCCTAGCTTTTTCAACCATGATAGCTAC HMKVARHKMPNHPSFFNHDSY -1.474 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25003 SLVPKFNNFSICMSLPPSIIN 21 SLAY-screened peptide P3353 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTTGGTTCCCAAGTTTAATAACTTTAGTATCTGCATGAGCCTTCCCCCATCCATAATTAAC SLVPKFNNFSICMSLPPSIIN -1.474 0.048555 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25004 ASNSDASLMPDCPGHIHAHG 20 SLAY-screened peptide P3354 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTAGCAACTCCGACGCGTCGCTCATGCCTGATTGTCCTGGTCACATCCACGCTCACGGTTAA ASNSDASLMPDCPGHIHAHG* -1.474 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25005 FTIMVTITVVFSYWDTTPNP 20 SLAY-screened peptide P3355 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTACCATTATGGTCACTATCACTGTGGTGTTCAGCTATTGGGATACTACCCCTAATCCTTAA FTIMVTITVVFSYWDTTPNP* -1.474 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25006 NMSIMRHKSLR 11 SLAY-screened peptide P3356 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATATGTCCATTATGCGCCACAAGAGTCTTCGTTAGGCCCAGGCGACTATTAATTACATGTAA NMSIMRHKSLR*AQATINYM* -1.474 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25007 RD 2 SLAY-screened peptide P3357 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGACTAGAGGGTCCCCTCGCATTGGAGCGTTGTCTGGATCAATAGGTCGGTGCCGACGTAA RD*RVPSHWSVVWINRSVPT* -1.473 0.003299 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25008 PRVRLSPHTDCKNDVCLIAV 20 SLAY-screened peptide P3358 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGTGTCCGCCTCAGTCCCCATACCGACTGCAAGAATGACGTCTGTCTCATCGCGGTGTAA PRVRLSPHTDCKNDVCLIAV* -1.473 0.010727 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25009 SPCAICLWWLNLFIATNRKT 20 SLAY-screened peptide P3359 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCCGTGCGCTATTTGTTTGTGGTGGCTTAATCTTTTCATCGCCACGAATCGGAAGACGTAA SPCAICLWWLNLFIATNRKT* -1.473 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25010 TYTNWHHWTPFILYQACRAS 20 SLAY-screened peptide P3360 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTATACTAATTGGCATCACTGGACCCCTTTTATTCTGTACCAGGCTTGCCGGGCTTCGTAA TYTNWHHWTPFILYQACRAS* -1.472 0.037515 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25011 PKFATPTCNHIVRAVIAINY 20 SLAY-screened peptide P3361 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAAGTTCGCTACGCCGACCTGTAACCACATCGTTCGGGCTGTTATCGCTATCAATTACTAA PKFATPTCNHIVRAVIAINY* -1.472 0.001286 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25012 DHVQVAWRPVTDSAHSRGAH 20 SLAY-screened peptide P3362 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCACGTCCAGGTCGCCTGGCGCCCGGTTACCGATTCTGCGCACAGCCGTGGCGCCCACTAA DHVQVAWRPVTDSAHSRGAH* -1.472 0.004909 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25013 LCDTLVFPMTNDPLYTRARLN 21 SLAY-screened peptide P3363 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGCGATACTTTGGTTTTCCCCATGACCAATGATCCCTTGTACACTAGAGCACGACTTAAC LCDTLVFPMTNDPLYTRARLN -1.472 0.014428 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25014 SRNLHESDYTCSYPTPGNGA 20 SLAY-screened peptide P3364 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCGCAACCTCCACGAGAGCGACTATACGTGCTCCTATCCCACCCCGGGGAACGGTGCCTAA SRNLHESDYTCSYPTPGNGA* -1.472 0.037832 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25015 PSKPCAAYYTTKNWSAHTGS 20 SLAY-screened peptide P3365 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCCAAGCCGTGCGCGGCTTATTATACCACTAAGAACTGGTCCGCGCATACTGGCAGCTAA PSKPCAAYYTTKNWSAHTGS* -1.472 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25016 GGSFVVGLLTRQDTKLFQHS 20 SLAY-screened peptide P3366 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGGTAGTTTTGTCGTGGGGCTTCTGACCCGGCAGGATACCAAGCTTTTCCAGCATTCGTAA GGSFVVGLLTRQDTKLFQHS* -1.472 0.011981 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25017 FMFG 4 SLAY-screened peptide P3367 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCATGTTTGGTTAGGTCAAGTCCCTCTCGAGGCAGGGTTCCTTGTTCGTCGATATGTACTAA FMFG*VKSLSRQGSLFVDMY* -1.471 0.000702 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25018 DNQDATINIYRAFIFRLINLT 21 SLAY-screened peptide P3368 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATAATCAGGATGCTACGATTAACATCTACCGTGCGTTCATCTTTAGGCTTATCAACTTAACT DNQDATINIYRAFIFRLINLT -1.471 0.01245 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25019 RAPCSHRTGGFLPSR 15 SLAY-screened peptide P3369 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCCCCCTGTAGTCACCGCACGGGGGGCTTTCTTCCTAGTAGGTAGATGTTCAAGCTTTAA RAPCSHRTGGFLPSR*MFKL* -1.471 0.007514 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25020 PEAGSVQIHNFEVLPCHFLV 20 SLAY-screened peptide P3370 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGAGGCTGGTAGCGTCCAGATTCATAACTTTGAGGTGTTGCCTTGTCATTTTTTGGTGTAA PEAGSVQIHNFEVLPCHFLV* -1.471 0.002142 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25021 CYHSFSLAYTLAPSTLAMQV 20 SLAY-screened peptide P3371 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTACCACTCTTTCTCCCTTGCCTACACCCTGGCGCCTTCCACTCTTGCGATGCAGGTTTAA CYHSFSLAYTLAPSTLAMQV* -1.471 0.000573 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25022 FIPINPSVPGLRTTANSSLS 20 SLAY-screened peptide P3372 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCATCCCCATTAATCCTTCCGTGCCTGGTCTCAGGACCACTGCCAATAGCTCTTTGTCGTAA FIPINPSVPGLRTTANSSLS* -1.471 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25023 QTPPKNHIIAADIRRIYLNR 20 SLAY-screened peptide P3373 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGACCCCTCCTAAGAACCACATTATTGCCGCTGATATTCGTCGCATCTATCTCAATCGTTAA QTPPKNHIIAADIRRIYLNR* -1.471 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25024 RMCFGAD 7 SLAY-screened peptide P3374 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGATGTGTTTTGGGGCTGATTAGGGGGGTCACCTCCTTTGCCTTCGCCACAATATGTATTAA RMCFGAD*GGHLLCLRHNMY* -1.47 0.01155 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25025 SPFQQLYDCIRMRQ 14 SLAY-screened peptide P3375 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCCTTTCAGCAGCTCTACGACTGCATTCGCATGCGGCAGTAGTGGGCCTTGGCTAGTTAA SPFQQLYDCIRMRQ*WALAS* -1.47 0.022129 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25026 ANDSRVALTDRLVSQCHNDP 20 SLAY-screened peptide P3376 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAACGACTCGCGCGTCGCTCTGACTGACCGTCTTGTTAGTCAGTGCCACAATGACCCCTAA ANDSRVALTDRLVSQCHNDP* -1.47 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25027 CVPNPVGRR 9 SLAY-screened peptide P3377 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTCCCTAACCCGGTCGGACGACGATAGCAGGTGCTCCGATGGGTCTCCCAATTACGGTTA CVPNPVGRR*QVLRWVSQLRL -1.47 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25028 RPRTHINILIAASRHPFVAW 20 SLAY-screened peptide P3378 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCGCGGACTCACATTAACATCCTTATTGCTGCCTCTAGGCATCCGTTTGTGGCCTGGTAA RPRTHINILIAASRHPFVAW* -1.469 0.006929 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25029 DSITDHAPPSKDLIIWVYSV 20 SLAY-screened peptide P3379 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTCTATTACCGATCATGCGCCTCCCTCCAAGGACCTGATTATCTGGGTTTACAGCGTTTAA DSITDHAPPSKDLIIWVYSV* -1.469 0.000322 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25030 CCPVPHHIVTPYNAIFRCQY 20 SLAY-screened peptide P3380 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTGTCCTGTCCCGCATCATATCGTTACCCCTTATAATGCGATTTTTCGTTGCCAGTACTAA CCPVPHHIVTPYNAIFRCQY* -1.469 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25031 CHCTMITTHLTPLLLR 16 SLAY-screened peptide P3381 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCATTGCACCATGATTACTACTCATCTGACGCCCCTTCTTCTGAGGTAGCTGATTACTTAA CHCTMITTHLTPLLLR*LIT* -1.468 0.000068 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25032 TPTWAPCLSRIG 12 SLAY-screened peptide P3382 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCTACGTGGGCCCCCTGTTTATCTCGTATAGGTTGAGCAGTGGCCCCCCCATCCGTAACT TPTWAPCLSRIG*AVAPPSVT -1.468 0.030469 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25033 YHLNSALTCLSYYRNSTIWA 20 SLAY-screened peptide P3383 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCATCTGAATAGTGCCCTGACTTGTCTGTCGTATTACAGGAATTCCACTATCTGGGCCTAA YHLNSALTCLSYYRNSTIWA* -1.467 0.023564 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25034 CVTINTNSSSLGL 13 SLAY-screened peptide P3384 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTCACGATTAACACTAATTCTAGCTCTTTGGGCTTGTAGAGCCCTAAGAAGGTTACGTAA CVTINTNSSSLGL*SPKKVT* -1.467 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25035 SGAQYYPL 8 SLAY-screened peptide P3385 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGGCGCTCAGTACTACCCCCTGTAGGTCTCTGAGGCTGACATGGCTATGTGGTCTGGTTAA SGAQYYPL*VSEADMAMWSG* -1.467 0.029426 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25036 RALSTILRLISRIVEAQPTP 20 SLAY-screened peptide P3386 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCGCTGAGCACCATTTTGAGGCTCATCTCCCGGATTGTGGAGGCTCAGCCCACTCCCTAA RALSTILRLISRIVEAQPTP* -1.467 0.022574 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25037 LTMNS 5 SLAY-screened peptide P3387 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCACTATGAACTCTTAGCGCTGCAAGGCGTTGCTTCCCGGTACTCATGTACCCAGAAGTAAC LTMNS*RCKALLPGTHVPRSN -1.467 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25038 RFLHIMSYLPMLFHILKIIR 20 SLAY-screened peptide P3388 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTTTTGCACATTATGTCCTACCTTCCTATGCTGTTTCACATCTTGAAGATTATTCGGTAA RFLHIMSYLPMLFHILKIIR* -1.467 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25039 LLYPKPTGMPIFSSVHYVSH 20 SLAY-screened peptide P3389 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCTCTATCCCAAGCCCACTGGCATGCCCATTTTTTCTTCCGTGCACTATGTTTCCCATTAA LLYPKPTGMPIFSSVHYVSH* -1.466 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25040 NSTPPRSPVRRVCSAYAYLY 20 SLAY-screened peptide P3390 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCGACGCCGCCCAGGTCTCCTGTGCGCCGTGTTTGTTCCGCCTATGCCTACCTCTACTAA NSTPPRSPVRRVCSAYAYLY* -1.466 0.000499 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25041 ISDRTYLNDFLT 12 SLAY-screened peptide P3391 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTCGGACCGGACTTATCTTAATGACTTTCTGACTTAGGATCCCAGCACGCTTTCGATGTAA ISDRTYLNDFLT*DPSTLSM* -1.466 0.000429 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25042 SGLYNVIIFFPMGHDDTKAE 20 SLAY-screened peptide P3392 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGGCCTCTATAACGTCATTATCTTCTTTCCGATGGGTCATGACGATACCAAGGCTGAGTAA SGLYNVIIFFPMGHDDTKAE* -1.466 0.001331 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25043 YTQNYICGPTLNYLPKDYIH 20 SLAY-screened peptide P3393 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACTCAGAATTATATTTGTGGTCCCACCCTTAATTACCTGCCGAAGGATTATATCCACTAA YTQNYICGPTLNYLPKDYIH* -1.466 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25044 HASLVVFRTMTSAALNANHA 20 SLAY-screened peptide P3394 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCTAGCTTGGTCGTTTTTCGTACGATGACTTCGGCGGCCCTCAATGCCAATCACGCTTAA HASLVVFRTMTSAALNANHA* -1.466 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25045 LPSNTMEIMNLGSMSLTYIT 20 SLAY-screened peptide P3395 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCTAGCAATACGATGGAGATCATGAACTTGGGCTCTATGAGCCTCACGTACATTACCTAA LPSNTMEIMNLGSMSLTYIT* -1.466 0.001063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25046 TASY 4 SLAY-screened peptide P3396 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCCTCTTATTAGCCCCGTTTTACCTCTCCATGATGGGCCGTACGAATAGTCTGACTTAAC TASY*PRFTSP*WAVRIV*LN -1.465 0.004676 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25047 TSPISRAHIIRLYHCTFLKA 20 SLAY-screened peptide P3397 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAGTCCCATTTCCCGCGCTCACATTATCCGTCTTTACCATTGTACCTTTTTGAAGGCCTAA TSPISRAHIIRLYHCTFLKA* -1.465 0.016094 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25048 QPTSSPTAWGSRAKATARFV 20 SLAY-screened peptide P3398 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCTACCTCTAGTCCTACCGCCTGGGGTTCTCGGGCCAAGGCCACCGCCCGTTTCGTTTAA QPTSSPTAWGSRAKATARFV* -1.465 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25049 RFYPLRDASCSNPYAYLVNN 20 SLAY-screened peptide P3399 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTTTTATCCCTTGCGTGATGCTTCTTGTAGCAACCCCTACGCTTACCTCGTTAATAACTAA RFYPLRDASCSNPYAYLVNN* -1.465 0.026879 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25050 LVFFSFVFVRFFRVERTNHA 20 SLAY-screened peptide P3400 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGTTTTTTTCTCCTTCGTGTTCGTTCGGTTTTTCCGTGTTGAGCGCACCAATCATGCGTAA LVFFSFVFVRFFRVERTNHA* -1.465 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25051 APAEHEVQHDPHHDSSITSA 20 SLAY-screened peptide P3401 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCCGCTGAGCATGAGGTTCAGCATGACCCCCATCATGATAGTAGCATCACGAGTGCTTAA APAEHEVQHDPHHDSSITSA* -1.465 0.01766 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25052 FNLNWHGPL 9 SLAY-screened peptide P3402 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTAACCTTAACTGGCATGGCCCCTTGTAGGTTATCAAGAGCCCCACCTTTGTTCTTGTGTAA FNLNWHGPL*VIKSPTFVLV* -1.465 0.030987 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25053 LMGYTNFSAHVQYN 14 SLAY-screened peptide P3403 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATGGGGTATACCAATTTTAGTGCCCATGTTCAGTACAACTAGTAGAACGATTGCACCTAA LMGYTNFSAHVQYN**NDCT* -1.465 0.003191 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25054 WCSADPRAD 9 SLAY-screened peptide P3404 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTGCTCGGCAGACCCACGAGCCGACTAGCCGGTTGCATAAGTTCCATTCCACCCTGTAACT WCSADPRAD*PVA*VPFHPVT -1.465 0.000063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25055 ARPPYWLESSVHGLRLTHLP 20 SLAY-screened peptide P3405 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGAGGCCGCCCTACTGGCTGGAGTCGAGTGTGCACGGCTTGCGCCTTACTCATCTGCCGTAA ARPPYWLESSVHGLRLTHLP* -1.465 0.029622 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25056 TSSSLMRILSIIWLLAIMRCN 21 SLAY-screened peptide P3406 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAGCAGCAGTCTGATGCGTATCCTCTCTATCATCTGGCTCCTTGCCATCATGCGCTGTAAC TSSSLMRILSIIWLLAIMRCN -1.465 0.008573 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25057 SQRGLANPSHSVNACNDGVTE 21 SLAY-screened peptide P3407 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCAGCGCGGTCTGGCCAACCCGTCCCATTCCGTTAATGCGTGTAACGATGGAGTAACTGAG SQRGLANPSHSVNACNDGVTE -1.464 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25058 YCSPGFYGVSPRMYIHAINS 20 SLAY-screened peptide P3408 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTGTAGTCCTGGCTTCTATGGCGTCAGCCCCAGGATGTACATTCATGCGATTAATAGTTAA YCSPGFYGVSPRMYIHAINS* -1.464 0.034463 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25059 PSSCIELRVYLIIRLKICRY 20 SLAY-screened peptide P3409 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCGTCGTGTATCGAGCTGCGCGTCTACCTCATCATTCGCCTTAAGATCTGCCGTTATTAA PSSCIELRVYLIIRLKICRY* -1.464 0.011426 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25060 VTADSSMLKGDFESLTIILL 20 SLAY-screened peptide P3410 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCACTGCTGACAGCAGCATGCTGAAGGGCGATTTCGAGAGTCTTACTATCATCTTGCTTTAA VTADSSMLKGDFESLTIILL* -1.464 0.045581 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25061 PILDNFHRANTVRVYGLNDI 20 SLAY-screened peptide P3411 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATCCTGGATAATTTCCACCGTGCTAATACTGTCCGCGTGTACGGCCTTAACGACATCTAA PILDNFHRANTVRVYGLNDI* -1.463 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25062 VPYHAILSALVNRLLRRLVH 20 SLAY-screened peptide P3412 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCCCTACCACGCCATTCTCTCCGCTCTCGTGAATCGCCTTCTTCGCCGGCTCGTCCACTAA VPYHAILSALVNRLLRRLVH* -1.463 0.000066 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25063 SSVPDLDDNPLLHSPISLSK 20 SLAY-screened peptide P3413 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAGCGTGCCTGACTTGGATGATAATCCCCTTCTGCATTCGCCCATTAGCCTTTCCAAGTAA SSVPDLDDNPLLHSPISLSK* -1.463 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25064 LRLGCISGAFVVPYPTTDNM 20 SLAY-screened peptide P3414 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAGGCTCGGCTGTATCTCTGGTGCCTTTGTTGTCCCGTACCCTACTACTGACAACATGTAA LRLGCISGAFVVPYPTTDNM* -1.463 0.006517 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25065 PRRSPQVLEDSRR 13 SLAY-screened peptide P3415 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCCGTAGCCCCCAGGTCCTTGAGGATTCGCGTCGCTAGTGGGCCTTTGGCATCACTTAA PRRSPQVLEDSRR*WAFGIT* -1.462 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25066 TSINEFNKWFTVKSNTITNL 20 SLAY-screened peptide P3416 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCCATTAATGAGTTTAATAAGTGGTTCACCGTCAAGTCTAACACCATCACGAACCTTTAA TSINEFNKWFTVKSNTITNL* -1.462 0.015546 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25067 FSDVLWRPPTWVSHSDPTFF 20 SLAY-screened peptide P3417 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTCGGATGTTTTGTGGCGCCCCCCTACCTGGGTCTCTCATAGCGATCCGACTTTCTTTTAA FSDVLWRPPTWVSHSDPTFF* -1.462 0.008772 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25068 PTWQDWITTLQYEYHSFPNL 20 SLAY-screened peptide P3418 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACTTGGCAGGATTGGATCACCACCCTCCAGTATGAGTACCACTCCTTCCCTAATCTCTAA PTWQDWITTLQYEYHSFPNL* -1.461 0.000024 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25069 SPPSSLTTCFIVALSCVRLPN 21 SLAY-screened peptide P3419 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCCGCCCTCGTCTTTGACAACCTGCTTCATCGTGGCACTCTCCTGCGTCCGACTGCCTAAC SPPSSLTTCFIVALSCVRLPN -1.461 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25070 PLPQGGDPSYKCRFNYFNYA 20 SLAY-screened peptide P3420 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTTCCCCAGGGCGGCGACCCCAGCTACAAGTGCCGCTTTAACTACTTTAATTACGCTTAA PLPQGGDPSYKCRFNYFNYA* -1.461 0.00011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25071 RLSLYLEPVPVYAL 14 SLAY-screened peptide P3421 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCTTTCGCTTTACCTTGAGCCGGTCCCTGTCTATGCCCTCTAGGACACCTCGCTTCTGTAA RLSLYLEPVPVYAL*DTSLL* -1.461 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25072 FIPLIYYITSLH 12 SLAY-screened peptide P3422 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTATCCCGTTGATCTATTACATTACGAGTCTTCACTAGGCCTTCTCCGAGACTACTAACTAA FIPLIYYITSLH*AFSETTN* -1.46 0.000389 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25073 HHSMDQIPPEAGQDPFDTNW 20 SLAY-screened peptide P3423 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCACTCGATGGATCAGATTCCTCCCGAGGCCGGCCAGGATCCGTTCGACACTAACTGGTAA HHSMDQIPPEAGQDPFDTNW* -1.46 0.002168 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25074 LHRFSKNRASLLCIIGLFPF 20 SLAY-screened peptide P3424 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCATCGCTTTTCTAAGAACCGCGCCAGTTTGTTGTGTATTATTGGTCTCTTTCCTTTTTAA LHRFSKNRASLLCIIGLFPF* -1.46 0.017387 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25075 DY 2 SLAY-screened peptide P3425 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTATTAGAGTTCGCGGTACTATATGAACCTCAACCCCATTTTCATTGTGTACTCTACTTAA DY*SSRYYMNLNPIFIVYST* -1.46 0.000062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25076 VYPVLPWILYILVVSLL 17 SLAY-screened peptide P3426 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTATCCGGTGCTCCCGTGGATTCTCTATATTCTTGTTGTGAGCCTTCTTTAGGGGGATTAA VYPVLPWILYILVVSLL*GD* -1.46 0.00016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25077 CDVATVIAAPLTVLRLTMVTN 21 SLAY-screened peptide P3427 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGACGTGGCAACTGTAATCGCAGCACCGCTTACCGTACTACGCCTCACCATGGTCACTAAC CDVATVIAAPLTVLRLTMVTN -1.46 0.000069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25078 QLPKIIRPNNIRAGARCITC 20 SLAY-screened peptide P3428 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTTGCCCAAGATTATTAGGCCCAACAATATCCGTGCGGGGGCTAGGTGCATTACGTGTTAA QLPKIIRPNNIRAGARCITC* -1.459 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25079 HHTTPIPDVSSSVMPINARY 20 SLAY-screened peptide P3429 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCATACTACCCCTATTCCTGACGTTTCTAGCAGTGTCATGCCCATCAATGCCCGGTACTAA HHTTPIPDVSSSVMPINARY* -1.459 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25080 QRHSAPLAFASGPWPVIPTGN 21 SLAY-screened peptide P3430 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCGTCATTCCGCTCCACTTGCGTTCGCATCTGGACCATGGCCGGTCATACCTACAGGTAAC QRHSAPLAFASGPWPVIPTGN -1.459 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25081 PSKRRFVLRLVLCVHSSRFD 20 SLAY-screened peptide P3431 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGCAAGCGGAGGTTCGTTCTCCGCCTTGTTCTCTGTGTGCACTCTTCGAGGTTTGACTAA PSKRRFVLRLVLCVHSSRFD* -1.459 0.017145 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25082 FDRWHGNIHSNYFNTMLPLY 20 SLAY-screened peptide P3432 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGACCGTTGGCATGGCAACATTCACTCTAACTACTTTAACACGATGCTTCCTCTCTACTAA FDRWHGNIHSNYFNTMLPLY* -1.459 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25083 GRTSAWSMATRLGHVYNSAT 20 SLAY-screened peptide P3433 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCGCACCAGCGCTTGGAGTATGGCCACTCGTCTCGGCCATGTTTATAATTCGGCTACTTAA GRTSAWSMATRLGHVYNSAT* -1.459 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25084 IDGCRSLSNRCRTRH 15 SLAY-screened peptide P3434 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGATGGCTGTAGGAGCCTTAGTAACCGCTGTAGGACCCGCCATTAGAACAGTAGGTCCTAA IDGCRSLSNRCRTRH*NSRS* -1.458 0.000946 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25085 LFPFPYRCYYRDFADNSWVN 20 SLAY-screened peptide P3435 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTCCCCTTCCCTTATCGCTGCTATTATCGTGATTTTGCCGATAATAGCTGGGTCAATTAA LFPFPYRCYYRDFADNSWVN* -1.458 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25086 CGVNIPLMLKCHDYRLPTPD 20 SLAY-screened peptide P3436 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGGTGTGAATATCCCGCTTATGCTTAAGTGTCATGATTACCGCCTGCCTACCCCTGATTAA CGVNIPLMLKCHDYRLPTPD* -1.458 0.007227 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25087 TDFLMVNNGIRGAA 14 SLAY-screened peptide P3437 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGATTTTCTCATGGTCAATAACGGCATTAGGGGGGCCGCCTGACTGACCACTGGCTCTAAC TDFLMVNNGIRGAA*LTTGSN -1.458 0.021615 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25088 FSRRLFNRFLFLFALRGYGN 20 SLAY-screened peptide P3438 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAGCCGCAGGCTGTTTAATCGGTTTCTGTTCCTTTTTGCCCTCCGGGGGTACGGTAACTAA FSRRLFNRFLFLFALRGYGN* -1.457 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25089 YSSPIFILHLDDKWSTPPLS 20 SLAY-screened peptide P3439 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCGTCCCCTATTTTTATCCTGCACCTCGATGATAAGTGGAGTACCCCGCCCCTGAGCTAA YSSPIFILHLDDKWSTPPLS* -1.457 0.003288 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25090 DHPHVGRPSSILKICCYEEE 20 SLAY-screened peptide P3440 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCATCCCCATGTTGGTCGTCCTTCCAGCATCTTGAAGATCTGCTGTTACGAGGAGGAGTAA DHPHVGRPSSILKICCYEEE* -1.457 0.000102 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25091 ISFIIGNCVRCDYHVMSSAL 20 SLAY-screened peptide P3441 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAGCTTCATCATTGGGAACTGTGTTCGCTGCGATTACCATGTCATGTCGAGTGCCCTTTAA ISFIIGNCVRCDYHVMSSAL* -1.456 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25092 GSYTFSHRSNPTTFCLALHT 20 SLAY-screened peptide P3442 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTCCTACACCTTTTCCCATCGCTCGAATCCGACCACGTTTTGTCTCGCGCTGCACACCTAA GSYTFSHRSNPTTFCLALHT* -1.456 0.028999 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25093 ASGLRHPRPRAPTTFTPDSK 20 SLAY-screened peptide P3443 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTCTGGTCTTCGTCACCCTCGGCCCAGGGCCCCTACTACGTTCACTCCTGATTCTAAGTAA ASGLRHPRPRAPTTFTPDSK* -1.456 0.021618 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25094 SFPATCRLLARVCSAPLFITN 21 SLAY-screened peptide P3444 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTTCCCTGCTACGTGTCGACTTCTTGCCCGGGTATGCAGTGCACCTCTCTTCATTACTAAC SFPATCRLLARVCSAPLFITN -1.456 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25095 GHMINYNTYSIINYRAWCGM 20 SLAY-screened peptide P3445 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCACATGATCAATTACAACACTTATAGCATCATCAATTACCGGGCCTGGTGTGGCATGTAA GHMINYNTYSIINYRAWCGM* -1.456 0.000982 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25096 VSHADSTHYGPTDDDCTSTV 20 SLAY-screened peptide P3446 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTCCCACGCGGACTCTACTCACTATGGTCCGACTGACGATGACTGCACGTCCACTGTTTAA VSHADSTHYGPTDDDCTSTV* -1.456 0.001934 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25097 CRPFRWIMRRIIPARLRTIN 20 SLAY-screened peptide P3447 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGGCCTTTTAGATGGATCATGCGTCGCATCATACCAGCTCGCCTACGGACTATTAACTGA CRPFRWIMRRIIPARLRTIN* -1.456 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25098 SIFRGSAGCELTMPAPDLLQ 20 SLAY-screened peptide P3448 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTATCTTCAGGGGCTCCGCCGGCTGCGAGCTGACTATGCCTGCCCCGGACCTTCTCCAGTAA SIFRGSAGCELTMPAPDLLQ* -1.455 0.015422 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25099 SGLTLKGPHHTDDLTSS 17 SLAY-screened peptide P3449 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGGCCTGACCCTGAAGGGCCCCCACCACACCGATGATCTTACTAGTAGTTAGGTCGATTAA SGLTLKGPHHTDDLTSS*VD* -1.455 0.041286 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25100 PVKSASVQAVDLVRTEVDRC 20 SLAY-screened peptide P3450 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTGAAGAGCGCGTCCGTCCAGGCCGTCGATCTGGTCCGCACTGAGGTGGATAGGTGTTAA PVKSASVQAVDLVRTEVDRC* -1.455 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25101 PIANEDHRRIAMSMPFAISRN 21 SLAY-screened peptide P3451 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATCGCGAACGAGGACCACCGCAGGATAGCTATGTCAATGCCGTTTGCTATCAGCCGTAAC PIANEDHRRIAMSMPFAISRN -1.455 0.031448 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25102 DSVTPSLLTHGIGTRLHTIPN 21 SLAY-screened peptide P3452 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTCGGTGACCCCCTCTCTCTTGACGCACGGTATTGGTACTCGGCTTCACACAATTCCTAAC DSVTPSLLTHGIGTRLHTIPN -1.455 0.00818 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25103 GSLPGHVRNTRIIATGRNRN 20 SLAY-screened peptide P3453 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGTCTTTGCCCGGTCACGTGCGCAATACTAGGATCATTGCCACTGGCCGTAACCGCAATTAA GSLPGHVRNTRIIATGRNRN* -1.455 0.000412 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25104 VDPSDTHGSLPNAHIICHLL 20 SLAY-screened peptide P3454 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGATCCTAGTGACACCCATGGCTCCCTCCCCAACGCTCACATTATCTGCCACTTGCTTTAA VDPSDTHGSLPNAHIICHLL* -1.455 0.000389 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25105 LHSLCIPHWYANAYSNLHLV 20 SLAY-screened peptide P3455 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCACAGTTTGTGCATCCCCCACTGGTACGCGAATGCTTATAGTAATCTGCACCTCGTCTAA LHSLCIPHWYANAYSNLHLV* -1.454 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25106 PNNKMCYVFHSLNRHHIGLS 20 SLAY-screened peptide P3456 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAATAACAAGATGTGCTATGTCTTCCATAGTCTTAACCGCCATCATATCGGGCTCAGCTAA PNNKMCYVFHSLNRHHIGLS* -1.454 0.000633 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25107 DIHTLILLLVPCPLRRSTLLN 21 SLAY-screened peptide P3457 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACATTCATACTCTCATCTTACTGCTAGTACCCTGCCCTTTGCGGCGCTCAACATTGCTTAAC DIHTLILLLVPCPLRRSTLLN -1.454 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25108 PDFVTHCRVYRHCCKRSILS 20 SLAY-screened peptide P3458 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGACTTCGTGACTCACTGTCGCGTCTATCGCCATTGTTGTAAGCGGTCCATCCTCTCTTAA PDFVTHCRVYRHCCKRSILS* -1.454 0.011255 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25109 LTQTLPEPDPRDTR 14 SLAY-screened peptide P3459 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGACTCAGACGCTCCCGGAGCCCGACCCTCGGGACACCCGGTAGGGCTCGAGTGGTTTGTAA LTQTLPEPDPRDTR*GSSGL* -1.454 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25110 QAGVCCTWRPPLPLPSPDRSL 21 SLAY-screened peptide P3460 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGCCGGGGTCTGCTGCACCTGGCGGCCCCCGCTCCCTCTACCTTCTCCGGACCGGTCATTA QAGVCCTWRPPLPLPSPDRSL -1.454 0.030205 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25111 SLYHSQPCSGTISISVYYTP 20 SLAY-screened peptide P3461 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCTTTATCATAGTCAGCCTTGTAGTGGTACGATTAGTATTTCCGTCTATTACACCCCTTAA SLYHSQPCSGTISISVYYTP* -1.454 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25112 IVMLGISMAPNVPKKSNISI 20 SLAY-screened peptide P3462 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGTGATGCTTGGGATTTCGATGGCTCCGAACGTCCCTAAGAAGTCTAATATCTCTATTTAA IVMLGISMAPNVPKKSNISI* -1.454 0.012451 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25113 SSPIVPRDGFCKNKADANNH 20 SLAY-screened peptide P3463 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAGCCCGATTGTTCCCAGGGATGGGTTCTGCAAGAATAAGGCGGATGCTAATAACCATTAA SSPIVPRDGFCKNKADANNH* -1.453 0.002669 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25114 HVPRNSMSLALNLLVSYCTY 20 SLAY-screened peptide P3464 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGTCCCTCGTAACTCTATGTCCCTCGCTCTTAACCTGCTCGTGTCTTATTGTACGTATTAA HVPRNSMSLALNLLVSYCTY* -1.453 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25115 RSCTNLTY 8 SLAY-screened peptide P3465 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAGCTGCACTAATCTTACCTATTAGGCGCAGAACTGTTCGAATAGGTTGTGTATTTAGTAA RSCTNLTY*AQNCSNRLCI** -1.453 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25116 SPVGMC 6 SLAY-screened peptide P3466 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCCGGTTGGGATGTGCTAGGCGTAGCGTTTCGGGGATCGCACTTGGTATACGCACCTGTAA SPVGMC*A*RFGDRTWYTHL* -1.453 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25117 LGTLGFAYYCSCTFHFSLYR 20 SLAY-screened peptide P3467 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGGCACCCTTGGCTTTGCTTATTATTGTTCCTGCACCTTCCATTTCTCTCTCTACAGGTAA LGTLGFAYYCSCTFHFSLYR* -1.453 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25118 SPWTQCTLVTFRLYED 16 SLAY-screened peptide P3468 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCCTGGACTCAGTGTACTTTGGTCACTTTCCGGTTGTACGAGGACTAGAACAGTATTTAA SPWTQCTLVTFRLYED*NSI* -1.453 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25119 PAIYTFY 7 SLAY-screened peptide P3469 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCGATCTATACCTTTTATTAGTTCTAGTCCGAGTCCCATGCCCGGGTGGATCGGCTTTAA PAIYTFY*F*SESHARVDRL* -1.453 0.001893 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25120 PYMNPVLTAYDGRPSYPLVP 20 SLAY-screened peptide P3470 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTACATGAACCCGGTGCTGACTGCCTATGATGGTCGCCCGAGCTATCCTCTTGTGCCTTAA PYMNPVLTAYDGRPSYPLVP* -1.452 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25121 ACIPTLSTRNDLRPPSPNMT 20 SLAY-screened peptide P3471 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTGTATTCCTACTCTGTCCACGCGCAACGATCTTCGTCCGCCTTCGCCTAATATGACGTAA ACIPTLSTRNDLRPPSPNMT* -1.452 0.005856 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25122 TVFYPPCHFDRCLARRPFAR 20 SLAY-screened peptide P3472 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTCTTCTACCCCCCCTGCCATTTTGATCGGTGTTTGGCTCGTAGGCCGTTCGCCCGCTAA TVFYPPCHFDRCLARRPFAR* -1.452 0.03662 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25123 RSRSY 5 SLAY-screened peptide P3473 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTCTCGTTCCTATTAGCCCATTTGGGGGCCGTGGTATTTGAATGAGCACGCCTCCTGTTAA RSRSY*PIWGPWYLNEHASC* -1.452 0.000094 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25124 LIAHCTNSGNFPKHAM 16 SLAY-screened peptide P3474 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGATTGCCCATTGCACTAATTCTGGTAATTTTCCTAAGCATGCTATGTAGCATTCTTGCTAA LIAHCTNSGNFPKHAM*HSC* -1.452 0.000032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25125 CFPDCWMR 8 SLAY-screened peptide P3475 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTTCCCCGACTGCTGGATGCGGTAGGCGCTCAAGCTGGTTGTTCAGTACTTGGACTGTTAA CFPDCWMR*ALKLVVQYLDC* -1.451 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25126 LRDLNCTLPYFLIRVSPDVL 20 SLAY-screened peptide P3476 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCGCGACCTTAATTGTACGCTTCCTTACTTTCTGATTCGGGTGTCGCCCGACGTGCTGTAA LRDLNCTLPYFLIRVSPDVL* -1.451 0.026949 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25127 PSRCPSHRFNCAPSLNMLST 20 SLAY-screened peptide P3477 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCCCGGTGTCCCTCTCACCGTTTTAATTGCGCGCCCTCCCTTAATATGTTGTCCACCTAA PSRCPSHRFNCAPSLNMLST* -1.451 0.004147 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25128 RRPDALGPSYSVPRFTLIRL 20 SLAY-screened peptide P3478 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGCCCGGATGCTCTTGGGCCCAGCTACTCCGTTCCTAGGTTCACCCTCATTCGTCTGTAA RRPDALGPSYSVPRFTLIRL* -1.449 0.002503 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25129 PRLWLLHCILYITSRIRLRHN 21 SLAY-screened peptide P3479 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTCTGTGGCTTTTGCACTGTATCCTCTATATTACTAGTCGTATTAGGCTCAGGCATAAC PRLWLLHCILYITSRIRLRHN -1.449 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25130 TSFANSHRPLYILPMICTASN 21 SLAY-screened peptide P3480 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCCTTTGCTAACTCGCACAGGCCCCTCTACATTTTGCCCATGATCTGTACGGCTTCTAAC TSFANSHRPLYILPMICTASN -1.449 0.028075 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25131 SGARVSFLYW 10 SLAY-screened peptide P3481 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGGGGCCCGCGTCTCTTTTCTGTATTGGTAGTTGTGCTTCCTCCTCTCTGACCATTGCTAA SGARVSFLYW*LCFLLSDHC* -1.449 0.004686 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25132 NRCSRPFPVPFVDWYMPINL 20 SLAY-screened peptide P3482 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCGTTGCTCGCGCCCGTTCCCGGTGCCCTTTGTCGATTGGTATATGCCTATTAACCTTTAA NRCSRPFPVPFVDWYMPINL* -1.449 0.000033 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25133 CKHTHPNHRDHRLTCSSCNQ 20 SLAY-screened peptide P3483 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAAGCACACTCATCCGAATCATCGCGATCACCGCCTGACGTGCAGTAGCTGCAACCAGTAA CKHTHPNHRDHRLTCSSCNQ* -1.449 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25134 VHPFHFKNHIDMHTFVPHVN 20 SLAY-screened peptide P3484 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCATCCTTTCCACTTCAAGAACCACATCGATATGCACACTTTTGTCCCGCATGTGAATTAA VHPFHFKNHIDMHTFVPHVN* -1.448 0.014845 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25135 HYFLLPRPMTLWRTFLYAKG 20 SLAY-screened peptide P3485 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTATTTCCTGTTGCCGAGGCCCATGACCTTGTGGAGGACGTTTTTGTACGCGAAGGGCTAA HYFLLPRPMTLWRTFLYAKG* -1.448 0.002896 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25136 PLWPCSQYPNCNDVLSPGGY 20 SLAY-screened peptide P3486 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCTGGCCCTGTTCTCAGTATCCTAATTGTAACGATGTCCTCAGCCCCGGGGGCTACTAA PLWPCSQYPNCNDVLSPGGY* -1.448 0.00609 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25137 PMALSAWH 8 SLAY-screened peptide P3487 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATGGCCTTGAGCGCTTGGCACTAGAATGCCCCCATTGCTATGCAGATTAGTCCCATTTAA PMALSAWH*NAPIAMQISPI* -1.448 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25138 LCPSSAL 7 SLAY-screened peptide P3488 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGTCCTTCGAGCGCCTTGTAGTCTCGCCCCCACCCCTACCATCGCTCCCGCGACGGTTAA LCPSSAL*SRPHPYHRSRDG* -1.447 0.000279 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25139 PPVHVCSLLF 10 SLAY-screened peptide P3489 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCGTTCACGTTTGCTCTCTCCTGTTTTAGCATATCATGTTTTACGATACGCCCGATTAA PPVHVCSLLF*HIMFYDTPD* -1.447 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25140 LSGCLSTTYWHCYCPIFNSI 20 SLAY-screened peptide P3490 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCTGGTTGTCTTAGTACTACCTACTGGCATTGTTATTGTCCTATTTTTAATAGTATTTAA LSGCLSTTYWHCYCPIFNSI* -1.447 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25141 DTVIPRFSWCPSLLYYLPTY 20 SLAY-screened peptide P3491 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACACCGTTATTCCGCGGTTCTCCTGGTGTCCGTCTCTTCTTTACTATCTGCCGACGTACTAA DTVIPRFSWCPSLLYYLPTY* -1.446 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25142 YRALNCDRRNRLYNSKKEVS 20 SLAY-screened peptide P3492 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCGCGCCCTTAACTGCGACCGGCGCAACCGCTTGTACAATTCGAAGAAGGAGGTCTCGTAA YRALNCDRRNRLYNSKKEVS* -1.446 0.014657 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25143 LVKRCSQRSYHLVYPPHTTP 20 SLAY-screened peptide P3493 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGTTAAGCGCTGCTCTCAGCGCAGCTACCACTTGGTTTACCCCCCGCATACCACGCCCTAA LVKRCSQRSYHLVYPPHTTP* -1.446 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25144 MSLTSACVWAHDDQGRDSFL 20 SLAY-screened peptide P3494 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTCCCTGACGTCCGCCTGTGTGTGGGCGCATGACGATCAGGGGCGGGATTCCTTTCTTTAA MSLTSACVWAHDDQGRDSFL* -1.446 0.000416 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25145 VGSAICARARRTAVPHAVSHL 21 SLAY-screened peptide P3495 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGGCTCCGCTATCTGCGCTCGCGCGCGCAGGACTGCGGTTCCTCATGCTGTCTCTCACTTA VGSAICARARRTAVPHAVSHL -1.446 0.000132 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25146 YSDYNNCPTSDHILVRYGTN 20 SLAY-screened peptide P3496 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTCTGACTACAACAACTGTCCTACCTCGGACCACATCCTGGTCCGCTACGGCACCAATTAA YSDYNNCPTSDHILVRYGTN* -1.446 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25147 TRNSTCTGRYILL 13 SLAY-screened peptide P3497 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCGTAACAGCACCTGTACCGGCCGGTATATTCTTTTGTAGAGACTGACGCTACGCCGTAAC TRNSTCTGRYILL*RLTLRRN -1.446 0.00062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25148 RPVPHPNGHCFSTCLITQAH 20 SLAY-screened peptide P3498 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCTGTCCCTCATCCTAATGGCCACTGTTTTTCCACTTGCCTGATTACCCAGGCCCACTAA RPVPHPNGHCFSTCLITQAH* -1.446 0.010901 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25149 TALSPVSCPILYVTAYNHP 19 SLAY-screened peptide P3499 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCTCTCAGCCCCGTCTCCTGCCCTATCCTTTATGTTACCGCCTACAATCATCCGTAACTG TALSPVSCPILYVTAYNHP*L -1.445 0.002782 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25150 PGIEPTDVIPSHSHVSFYTR 20 SLAY-screened peptide P3500 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGTATCGAGCCCACGGACGTGATCCCCAGTCACAGTCATGTCAGTTTTTACACCAGGTAA PGIEPTDVIPSHSHVSFYTR* -1.445 0.003898 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25151 NFNDRFIHECCSYCHWLGSW 20 SLAY-screened peptide P3501 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTTCAATGATAGGTTTATTCACGAGTGCTGCAGTTATTGTCACTGGTTGGGTAGTTGGTAA NFNDRFIHECCSYCHWLGSW* -1.445 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25152 TFISHMA 7 SLAY-screened peptide P3502 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTTTATTAGTCACATGGCCTAGGCCCCGCCGAAGAGCTCGTAGAATCATGTCGATAATTAA TFISHMA*APPKSS*NHVDN* -1.445 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25153 HINTSRFEIAWCSLRNPSVS 20 SLAY-screened peptide P3503 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACATTAACACTTCTCGCTTCGAGATCGCTTGGTGTTCTCTTCGTAACCCGAGCGTCTCCTAA HINTSRFEIAWCSLRNPSVS* -1.445 0.000197 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25154 FRIAGTRPTWTTLPSN 16 SLAY-screened peptide P3504 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCGTATTGCTGGGACCCGGCCAACGTGGACTACTTTACCGTCTAACTGAGTAAGTCGACCT FRIAGTRPTWTTLPSN*VSRP -1.444 0.001089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25155 RAVADALLPPAHTSVYVSSV 20 SLAY-screened peptide P3505 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCGGTGGCGGATGCTCTCCTGCCCCCTGCTCACACTTCTGTGTACGTCTCTTCCGTTTAA RAVADALLPPAHTSVYVSSV* -1.444 0.005424 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25156 AC 2 SLAY-screened peptide P3506 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTGTTAGAAGCCCTCGCCCCCCGGCCCCTTGCCTAGTTAGCCCCCCTTCTAGCCGCCTTAA AC*KPSPPGPLPS*PPF*PP* -1.443 0.018603 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25157 CPLPLFRTLPMYSVPRISLT 20 SLAY-screened peptide P3507 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCGCTTCCGCTTTTTCGGACCCTGCCTATGTACTCCGTGCCTCGGATCTCGCTTACGTAA CPLPLFRTLPMYSVPRISLT* -1.443 0.000531 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25158 PYRAPCPYFYISALRSGSPN 20 SLAY-screened peptide P3508 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTACAGGGCGCCGTGCCCCTATTTTTACATTTCTGCTTTGCGTAGTGGTTCGCCTAATTAA PYRAPCPYFYISALRSGSPN* -1.443 0.007957 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25159 CRFITPTYTLVYNDSDNYDI 20 SLAY-screened peptide P3509 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCGTTTTATTACCCCTACTTACACTCTGGTGTATAATGACAGTGACAACTACGATATTTAA CRFITPTYTLVYNDSDNYDI* -1.443 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25160 AVNPPPSELDCIIIPLPPRA 20 SLAY-screened peptide P3510 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGTCAACCCTCCTCCTTCGGAGCTCGATTGTATCATCATCCCGCTGCCGCCGCGCGCTTAA AVNPPPSELDCIIIPLPPRA* -1.443 0.003315 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25161 VTNLLSDTDRINMRHVHVLH 20 SLAY-screened peptide P3511 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGACTAACCTCCTGTCGGATACTGATCGTATTAATATGCGTCACGTGCACGTCCTCCATTAA VTNLLSDTDRINMRHVHVLH* -1.443 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25162 SVYPSPSPHELPSFNTLLAP 20 SLAY-screened peptide P3512 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGTTTATCCTTCCCCGTCCCCTCACGAGTTGCCTAGCTTTAATACTTTGCTGGCCCCTTAA SVYPSPSPHELPSFNTLLAP* -1.443 0.000226 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25163 SRYLVSPFFMRHRATLSPNA 20 SLAY-screened peptide P3513 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAGGTACCTGGTCAGCCCCTTTTTTATGAGGCACCGCGCCACTCTTTCTCCGAACGCTTAA SRYLVSPFFMRHRATLSPNA* -1.442 0.000793 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25164 LPATRSLMFVNLFFYSIHNF 20 SLAY-screened peptide P3514 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCCGCGACGCGCAGCCTCATGTTCGTTAACCTCTTTTTTTACTCTATCCATAATTTCTAA LPATRSLMFVNLFFYSIHNF* -1.442 0.008982 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25165 ALPCPWSTISCNKAYHPSFI 20 SLAY-screened peptide P3515 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTTGCCCTGTCCCTGGAGTACGATTTCGTGCAATAAGGCCTACCATCCCTCTTTTATTTAA ALPCPWSTISCNKAYHPSFI* -1.442 0.000496 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25166 LIRDAPRKIASWISDFLCSP 20 SLAY-screened peptide P3516 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGATTCGCGACGCGCCCCGGAAGATCGCTTCGTGGATCTCGGATTTCCTCTGTTCTCCGTAA LIRDAPRKIASWISDFLCSP* -1.441 0.021602 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25167 VGRLTDS 7 SLAY-screened peptide P3517 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGGGTCGTCTGACGGACTCTTAGCCCCACCAGGGTCGTGGCTACAAGAACCCCTTTTATTAA VGRLTDS*PHQGRGYKNPFY* -1.441 0.001654 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25168 SSSHVGLSVAPSNNTNDGQS 20 SLAY-screened peptide P3518 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCGAGTCACGTTGGCCTCTCTGTTGCCCCCTCTAACAACACGAATGACGGCCAGTCCTAA SSSHVGLSVAPSNNTNDGQS* -1.441 0.000063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25169 TLLNVISNVLTSLLFICALFN 21 SLAY-screened peptide P3519 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTCCTGAACGTCATCTCGAATGTGTTAACGTCCCTGCTATTTATCTGTGCTCTCTTTAAC TLLNVISNVLTSLLFICALFN -1.441 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25170 GVPLLPPLCCLIPNCLPAFI 20 SLAY-screened peptide P3520 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGGTGCCTTTGTTGCCCCCCCTGTGCTGTTTGATTCCCAATTGTCTGCCGGCCTTCATTTAA GVPLLPPLCCLIPNCLPAFI* -1.441 0.000165 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25171 PLSTALYVLYAYSVSLSYSM 20 SLAY-screened peptide P3521 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTTCCACTGCCCTCTATGTGCTTTATGCGTATTCCGTTTCTCTCAGCTATAGCATGTAA PLSTALYVLYAYSVSLSYSM* -1.441 0.000268 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25172 LPVDSSPPFVSCLYYHNYC 19 SLAY-screened peptide P3522 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCTGTCGATTCTTCTCCTCCCTTTGTTTCTTGTCTTTATTACCACAATTACTGTTAGTAC LPVDSSPPFVSCLYYHNYC*Y -1.441 0.014094 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25173 NASPNGANVRMPTLVLWSHR 20 SLAY-screened peptide P3523 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGCTAGCCCCAACGGCGCCAACGTTAGGATGCCCACCCTTGTCCTTTGGTCGCACCGCTAA NASPNGANVRMPTLVLWSHR* -1.44 0.00011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25174 FTKCSVVH 8 SLAY-screened peptide P3524 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACCAAGTGTTCGGTCGTTCATTAGCTGCATAACCCCGACCCCGCGGTGACTTATCTTTAA FTKCSVVH*LHNPDPAVTYL* -1.44 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25175 AKGPCRTIPIACVILRLIMI 20 SLAY-screened peptide P3525 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGAAGGGCCCGTGCCGCACTATCCCTATTGCTTGTGTGATCCTGAGGCTTATTATGATTTAA AKGPCRTIPIACVILRLIMI* -1.439 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25176 RGPRTLPIPITDIELFTACL 20 SLAY-screened peptide P3526 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGGCCCTCGTACGTTGCCCATCCCGATTACGGATATCGAGCTCTTTACTGCCTGCTTGTAA RGPRTLPIPITDIELFTACL* -1.438 0.000106 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25177 DHQTHYCTRNCTFVKQVLSY 20 SLAY-screened peptide P3527 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCATCAGACTCATTATTGTACTCGCAATTGCACGTTCGTTAAGCAGGTCCTCTCTTATTAA DHQTHYCTRNCTFVKQVLSY* -1.438 0.014941 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25178 YCPPTPHPCRLFPVPNTYAH 20 SLAY-screened peptide P3528 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTGTCCTCCCACCCCTCACCCGTGCCGCCTCTTCCCCGTCCCCAATACTTACGCGCACTAA YCPPTPHPCRLFPVPNTYAH* -1.438 0.035396 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25179 PTYDIISMGGHTNTDCIHDG 20 SLAY-screened peptide P3529 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACTTATGATATCATCAGCATGGGCGGTCACACGAATACGGACTGTATCCACGACGGGTAA PTYDIISMGGHTNTDCIHDG* -1.438 0.000149 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25180 AQNNHRMPRPERRDRMGLSC 20 SLAY-screened peptide P3530 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCAGAATAATCACCGGATGCCCCGCCCCGAGCGGCGGGACCGGATGGGTTTGAGTTGTTAA AQNNHRMPRPERRDRMGLSC* -1.438 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25181 HKSPTDPVQNTPTRFTTDCP 20 SLAY-screened peptide P3531 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAAGAGCCCCACTGATCCCGTCCAGAACACGCCGACTCGCTTTACGACCGATTGTCCTTAA HKSPTDPVQNTPTRFTTDCP* -1.437 0.000078 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25182 DALQQDHALGHNAE 14 SLAY-screened peptide P3532 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGCTCTCCAGCAGGATCATGCCCTCGGGCATAACGCCGAGTAGGTGTACTGGGCCAGCTAA DALQQDHALGHNAE*VYWAS* -1.437 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25183 SRRIAFDHPDRN 12 SLAY-screened peptide P3533 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGCAGGATTGCCTTCGACCACCCTGATCGTAATTAGTTCCAGGCTTCTTATCGCGTCTAA SRRIAFDHPDRN*FQASYRV* -1.436 0.010853 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25184 IKQSHMALYISTDRRASCQW 20 SLAY-screened peptide P3534 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAAGCAGTCGCATATGGCTCTCTACATCAGCACTGACAGGAGGGCTAGTTGCCAGTGGTAA IKQSHMALYISTDRRASCQW* -1.436 0.00157 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25185 FPGGSPQTGGSHSVTGQLHR 20 SLAY-screened peptide P3535 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCCCGGTGGCAGCCCGCAGACGGGGGGTTCCCATTCCGTTACTGGGCAGTTGCACCGTTAA FPGGSPQTGGSHSVTGQLHR* -1.436 0.004324 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25186 RHEHFDFPCVDYLIYLTDFA 20 SLAY-screened peptide P3536 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCATGAGCACTTTGATTTTCCGTGTGTTGACTATTTGATCTACCTGACGGATTTTGCCTAA RHEHFDFPCVDYLIYLTDFA* -1.436 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25187 GMPGAPLYWNVKIIPLIWAY 20 SLAY-screened peptide P3537 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCATGCCGGGTGCCCCCCTCTATTGGAATGTCAAGATTATCCCTCTCATTTGGGCCTATTAA GMPGAPLYWNVKIIPLIWAY* -1.436 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25188 FGYSCSELPLYMDAAMTYTK 20 SLAY-screened peptide P3538 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGGCTATAGCTGTTCTGAGCTCCCGCTCTATATGGACGCCGCCATGACTTACACTAAGTAA FGYSCSELPLYMDAAMTYTK* -1.435 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25189 PRSTYYNYHPFSSATIIYSL 20 SLAY-screened peptide P3539 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGTTCGACTTATTATAATTACCATCCTTTTAGCTCGGCGACTATCATTTACTCGCTTTAA PRSTYYNYHPFSSATIIYSL* -1.435 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25190 YLEWIYCWSLLGIYPQS 17 SLAY-screened peptide P3540 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCTGGAGTGGATTTATTGCTGGTCGCTTCTCGGTATTTATCCTCAGTCGTAGCCGCATTAA YLEWIYCWSLLGIYPQS*PH* -1.435 0.007683 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25191 SHALVLNCTSLLTFAQQWFK 20 SLAY-screened peptide P3541 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCACGCGCTCGTTCTTAACTGTACTTCCCTTCTGACCTTTGCTCAGCAGTGGTTTAAGTAA SHALVLNCTSLLTFAQQWFK* -1.435 0.000132 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25192 ARFLRTESCPCKFTNLHLSL 20 SLAY-screened peptide P3542 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGCTTTTTGCGTACTGAGAGTTGCCCGTGCAAGTTCACTAATTTGCATTTGTCTCTCTAA ARFLRTESCPCKFTNLHLSL* -1.435 0.024608 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25193 HMPCRAPYQDSIPSRIETNY 20 SLAY-screened peptide P3543 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACATGCCCTGCCGCGCGCCCTACCAGGATTCGATTCCGAGCCGTATCGAGACGAATTATTAA HMPCRAPYQDSIPSRIETNY* -1.435 0.011901 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25194 HPQNRSTNVPRSYNFYSGRT 20 SLAY-screened peptide P3544 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGCAGAACCGGAGTACTAACGTGCCCAGGTCCTATAATTTTTATTCTGGCAGGACTTAA HPQNRSTNVPRSYNFYSGRT* -1.435 0.016621 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25195 RCRPTGLLPRLLPGIFRNHY 20 SLAY-screened peptide P3545 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTGCCGCCCCACTGGTCTCTTGCCCCGTCTGCTGCCTGGTATCTTCCGCAACCATTACTAA RCRPTGLLPRLLPGIFRNHY* -1.434 0.000848 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25196 CIYTSASGWRCHRQ 14 SLAY-screened peptide P3546 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCATTTACACTTCTGCTTCGGGCTGGCGTTGCCACCGCCAGTAGCTTTATTATCCCTACTAA CIYTSASGWRCHRQ*LYYPY* -1.434 0.010973 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25197 PVNDSLGVPTTHADPTVGFY 20 SLAY-screened peptide P3547 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTTAACGATTCCCTCGGCGTCCCGACTACGCATGCTGACCCCACTGTTGGCTTCTACTAA PVNDSLGVPTTHADPTVGFY* -1.434 0.002812 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25198 PRNKHPGYHFHFRTPILTGV 20 SLAY-screened peptide P3548 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGCAACAAGCACCCGGGTTACCACTTTCATTTTCGTACCCCTATTCTCACCGGCGTTTAA PRNKHPGYHFHFRTPILTGV* -1.434 0.006144 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25199 QPLVLPGTPHTSHNVNIFCR 20 SLAY-screened peptide P3549 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCTCTTGTCCTGCCTGGGACGCCTCATACGTCTCACAACGTGAATATCTTCTGCCGCTAA QPLVLPGTPHTSHNVNIFCR* -1.434 0.009373 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25200 AWYDFARAVHTNKHVNLLFT 20 SLAY-screened peptide P3550 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTGGTACGACTTTGCGCGTGCCGTCCATACCAACAAGCACGTTAATCTCCTTTTCACTTAA AWYDFARAVHTNKHVNLLFT* -1.434 0.001243 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25201 RHRSGWPCFGYNYFARHSMN 20 SLAY-screened peptide P3551 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCACCGGTCTGGCTGGCCGTGTTTTGGCTATAACTATTTCGCGCGCCATAGCATGAACTAA RHRSGWPCFGYNYFARHSMN* -1.433 0.0039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25202 GFELSSPL 8 SLAY-screened peptide P3552 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTTCGAGCTTTCATCCCCACTCTGAGTGCCTTAGCGTCGAGAACAACGATCATTTCTGGTA GFELSSPL*VP*RREQRSFLV -1.433 0.002357 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25203 HEPAHGPTMYKFMMNTVARY 20 SLAY-screened peptide P3553 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGAGCCCGCCCATGGTCCGACCATGTACAAGTTCATGATGAACACCGTCGCCCGCTACTAA HEPAHGPTMYKFMMNTVARY* -1.433 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25204 ICCLRNSTKIRPKIIHHNQG 20 SLAY-screened peptide P3554 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTGCTGCTTGCGGAACTCTACCAAGATCCGGCCCAAGATTATTCATCACAACCAGGGTTAA ICCLRNSTKIRPKIIHHNQG* -1.433 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25205 SHTPGNCWLISYHSMDPNTT 20 SLAY-screened peptide P3555 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCACACGCCTGGCAATTGCTGGCTGATTAGTTACCACTCGATGGATCCCAATACTACGTAA SHTPGNCWLISYHSMDPNTT* -1.433 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25206 GFHLRPAVGGGYNLTNTDST 20 SLAY-screened peptide P3556 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTTCCACCTGCGCCCGGCCGTCGGCGGTGGTTACAATCTTACTAACACCGATAGCACCTAA GFHLRPAVGGGYNLTNTDST* -1.432 0.009018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25207 FTSPPCVPLYDPYAWQQISM 20 SLAY-screened peptide P3557 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACCAGCCCTCCTTGCGTCCCTCTTTACGACCCTTACGCCTGGCAGCAGATCAGCATGTAA FTSPPCVPLYDPYAWQQISM* -1.432 0.031359 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25208 ADRVLPRYAHTSIAHPGRVG 20 SLAY-screened peptide P3558 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGATCGCGTTCTCCCTCGCTACGCGCATACGAGCATTGCTCATCCGGGCAGGGTTGGGTAA ADRVLPRYAHTSIAHPGRVG* -1.432 0.016039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25209 NTCFTEPYHTDTKRNSHGEN 20 SLAY-screened peptide P3559 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACCTGCTTCACTGAGCCTTACCACACTGATACTAAGAGGAACTCCCATGGCGAGAATTAA NTCFTEPYHTDTKRNSHGEN* -1.432 0.007081 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25210 RGSTRRPNARPLRPNNPAPT 20 SLAY-screened peptide P3560 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGGCTCCACTCGGCGCCCTAACGCGCGTCCGCTGAGGCCTAATAACCCTGCTCCTACGTAA RGSTRRPNARPLRPNNPAPT* -1.431 0.000723 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25211 QPIKYDVSTVLLSYYDYNKA 20 SLAY-screened peptide P3561 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCTATCAAGTACGATGTTTCCACCGTGTTGCTTTCGTACTACGATTATAATAAGGCCTAA QPIKYDVSTVLLSYYDYNKA* -1.431 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25212 FSFYLDPPCYLPMNLYHHNY 20 SLAY-screened peptide P3562 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTCGTTTTACCTGGATCCTCCCTGTTACTTGCCGATGAACCTTTACCACCATAATTATTAA FSFYLDPPCYLPMNLYHHNY* -1.431 0.000026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25213 HQFSCQTGSIDRPRGR 16 SLAY-screened peptide P3563 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCAGTTCAGTTGCCAGACGGGTAGTATCGACCGCCCCAGGGGCCGTTAGGGCGTGCGCTAA HQFSCQTGSIDRPRGR*GVR* -1.431 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25214 LPSPHEKPVPASIQYTCTPL 20 SLAY-screened peptide P3564 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCCAGTCCGCACGAGAAGCCTGTTCCTGCGTCCATTCAGTATACTTGCACCCCCTTGTAA LPSPHEKPVPASIQYTCTPL* -1.431 0.009539 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25215 GMSLQCCPMIFAPSEYPYIY 20 SLAY-screened peptide P3565 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCATGTCTTTGCAGTGTTGCCCCATGATTTTTGCGCCTAGCGAGTATCCCTACATTTACTAA GMSLQCCPMIFAPSEYPYIY* -1.431 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25216 PGLSNNYAPNAIHTSPSKTI 20 SLAY-screened peptide P3566 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGGGTTGTCCAATAATTACGCTCCCAATGCCATTCATACGTCCCCGTCCAAGACTATTTAA PGLSNNYAPNAIHTSPSKTI* -1.431 0.018324 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25217 PKYFLTYPKPARHMFLRICS 20 SLAY-screened peptide P3567 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAAGTACTTTCTCACTTACCCCAAGCCCGCCCGTCACATGTTTCTGCGTATCTGCTCCTAA PKYFLTYPKPARHMFLRICS* -1.431 0.000055 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25218 TSCSRACP 8 SLAY-screened peptide P3568 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCGTGCTCTCGCGCGTGTCCCTAGGCCAAGTCTATTGTCGCGACGTGTTGCTCCAAGTAA TSCSRACP*AKSIVATCCSK* -1.431 0.003145 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25219 YHGRLSPVSFNRNA 14 SLAY-screened peptide P3569 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCATGGGCGCCTGTCCCCTGTCTCTTTTAACCGTAACGCCTAGTCTTTCCCTTCCTCTTAA YHGRLSPVSFNRNA*SFPSS* -1.431 0.005804 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25220 NTPSYDSQDPTSSFCHQLRT 20 SLAY-screened peptide P3570 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACCCCTAGCTACGATTCTCAGGATCCTACTTCTAGCTTCTGTCATCAGCTCCGTACTTAA NTPSYDSQDPTSSFCHQLRT* -1.43 0.011875 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25221 TTLDTDDNFQL 11 SLAY-screened peptide P3571 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACCCTTGACACTGATGATAACTTCCAGCTTTAGTCTTCTATCAACAGGACGAATCTGTAA TTLDTDDNFQL*SSINRTNL* -1.43 0.047051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25222 FNDHYCP 7 SLAY-screened peptide P3572 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAATGACCATTATTGCCCATGATCATCACTCTCGCCAGTACGGGGTCTAACTGAGTAAGTC FNDHYCP*SSLSPVRGLTE*V -1.43 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25223 GTHTPFLHPIFDPCGDLSPH 20 SLAY-screened peptide P3573 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTACCCATACCCCCTTCCTGCATCCGATTTTCGACCCTTGCGGTGACCTCAGCCCTCATTAA GTHTPFLHPIFDPCGDLSPH* -1.43 0.018603 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25224 SPAFVCHALSRSDFRLP 17 SLAY-screened peptide P3574 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCGGCTTTCGTGTGCCATGCCCTTTCCCGGAGTGACTTTCGTTTGCCTTAGGCCCGGTAA SPAFVCHALSRSDFRLP*AR* -1.43 0.000399 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25225 PTTMACSWI 9 SLAY-screened peptide P3575 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACGACTATGGCCTGCTCGTGGATCTAGCTTCCCTCTTCCCAGTATATCAGTGTTAGTTAA PTTMACSWI*LPSSQYISVS* -1.43 0.000072 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25226 FRGTQIMW 8 SLAY-screened peptide P3576 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCGGGGCACCCAGATCATGTGGTAGCAGTGGCTCATGATCAAGATGACGTGCTTTGATTAA FRGTQIMW*QWLMIKMTCFD* -1.43 0.000083 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25227 HQVIVHASLSLCLNTVMLVC 20 SLAY-screened peptide P3577 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCAGGTTATTGTGCACGCGAGTCTGAGCCTTTGTCTCAATACCGTGATGCTTGTGTGCTAA HQVIVHASLSLCLNTVMLVC* -1.429 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25228 QCSNTFLPYRIADRWGDNSY 20 SLAY-screened peptide P3578 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTGCAGTAACACCTTCTTGCCTTACAGGATCGCTGATAGGTGGGGCGACAATTCTTATTAA QCSNTFLPYRIADRWGDNSY* -1.429 0.003856 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25229 RQPMWRSLQVYPAYAPFVTS 20 SLAY-screened peptide P3579 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCAGCCTATGTGGCGCTCCCTCCAGGTGTACCCCGCTTACGCCCCCTTCGTCACCTCCTAA RQPMWRSLQVYPAYAPFVTS* -1.429 0.006476 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25230 NYHQYPSFTTSSTKHVNSAM 20 SLAY-screened peptide P3580 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTACCATCAGTATCCGTCGTTTACTACGAGTTCTACGAAGCACGTCAATTCCGCGATGTAA NYHQYPSFTTSSTKHVNSAM* -1.429 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25231 PSRFCVTYRPKHVLSTTMVY 20 SLAY-screened peptide P3581 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCCCGGTTCTGTGTCACTTATAGGCCCAAGCACGTCTTGTCCACTACCATGGTCTACTAA PSRFCVTYRPKHVLSTTMVY* -1.428 0.001048 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25232 HIPNIYNNPISRWVGLVTIVN 21 SLAY-screened peptide P3582 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACATTCCTAATATTTATAATAACCCTATCTCTCGTTGGGTCGGTCTGGTTACAATCGTTAAC HIPNIYNNPISRWVGLVTIVN -1.428 0.036164 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25233 PSVLLFQHSLDQ 12 SLAY-screened peptide P3583 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCGGTATTACTTTTTCAGCACTCGTTAGATCAGTAGTTTTGAGTGTCCTTAGAATGGCTA PSVLLFQHSLDQ*F*VSLEWL -1.428 0.016075 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25234 SNQTFINLHPGNGYFSLSNR 20 SLAY-screened peptide P3584 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAATCAGACGTTCATCAACTTGCACCCCGGCAACGGTTACTTCTCGCTTAGTAACCGCTAA SNQTFINLHPGNGYFSLSNR* -1.428 0.021537 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25235 LTRTSVRTISTFRRRTN 17 SLAY-screened peptide P3585 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACGCGTACCAGTGTTCGGACCATCAGTACTTTCCGCCGTAGGACGAACTAGAGGTATTAA LTRTSVRTISTFRRRTN*RY* -1.428 0.024916 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25236 TSSQHTPPIPEVIPAGYHNY 20 SLAY-screened peptide P3586 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCGTCCCAGCACACGCCCCCTATCCCTGAGGTGATCCCTGCGGGGTACCATAATTATTAA TSSQHTPPIPEVIPAGYHNY* -1.428 0.006173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25237 PAFMSTPNLQLRFRHTLS 18 SLAY-screened peptide P3587 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCGTTCATGTCCACTCCGAACCTTCAGCTCAGGTTTCGGCATACTTTGTCTTAGATGTAA PAFMSTPNLQLRFRHTLS*M* -1.427 0.000278 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25238 LLQLIDLTFMLTVRNARSKN 20 SLAY-screened peptide P3588 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTTCAGCTGATCGATCTGACTTTTATGTTGACGGTGCGTAATGCGCGCAGCAAGAACTAA LLQLIDLTFMLTVRNARSKN* -1.427 0.000511 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25239 LHPTHNLNSEPRYIPLYITT 20 SLAY-screened peptide P3589 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCACCCTACCCATAACTTGAATAGCGAGCCGCGCTACATTCCTCTGTACATTACGACTTAA LHPTHNLNSEPRYIPLYITT* -1.427 0.011791 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25240 LLTHTFHNGYYDETSDVAYG 20 SLAY-screened peptide P3590 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTGACTCATACGTTCCATAACGGTTACTACGACGAGACGAGCGACGTCGCTTACGGCTAA LLTHTFHNGYYDETSDVAYG* -1.427 0.000186 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25241 SSYRPRPITPPTGAWIAQCH 20 SLAY-screened peptide P3591 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCAGTTACCGGCCTCGGCCCATTACTCCGCCCACTGGTGCTTGGATCGCCCAGTGTCACTAA SSYRPRPITPPTGAWIAQCH* -1.427 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25242 SIYYQTHICV 10 SLAY-screened peptide P3592 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGATCTATTATCAGACTCATATTTGCGTGTAGTCCCACTCTTACTGCTATGGTATTTCCTAA SIYYQTHICV*SHSYCYGIS* -1.427 0.00338 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25243 LLAADRSMEISVSAPDMNLT 20 SLAY-screened peptide P3593 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTGGCTGCCGACCGTTCCATGGAGATCTCTGTCTCCGCGCCCGATATGAACCTTACGTAA LLAADRSMEISVSAPDMNLT* -1.427 0.000721 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25244 AAAYFNEYRRIPRYGSDACF 20 SLAY-screened peptide P3594 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCGGCGTACTTTAACGAGTACCGCAGGATCCCGAGGTACGGCTCTGACGCGTGCTTTTAA AAAYFNEYRRIPRYGSDACF* -1.427 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25245 SGTRCCACHCNPALPRMQYI 20 SLAY-screened peptide P3595 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGGTACCCGTTGTTGCGCTTGTCATTGCAACCCCGCGTTGCCCAGGATGCAGTATATCTAA SGTRCCACHCNPALPRMQYI* -1.426 0.003184 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25246 VNCASSIFSITFRLMIRITLN 21 SLAY-screened peptide P3596 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTAACTGCGCAAGCTCTATTTTCTCAATCACATTTCGTTTAATGATCCGAATTACACTTAAC VNCASSIFSITFRLMIRITLN -1.426 0.00027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25247 PRLHTSHICTILHHAPWSCH 20 SLAY-screened peptide P3597 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGGCTTCACACTAGCCACATTTGCACGATCCTGCACCATGCTCCTTGGTCGTGCCACTAA PRLHTSHICTILHHAPWSCH* -1.426 0.000267 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25248 RPLCVPWSSCFPIYSPYCMF 20 SLAY-screened peptide P3598 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCGCTCTGCGTCCCCTGGAGTTCTTGTTTCCCCATTTATTCTCCTTACTGTATGTTCTAA RPLCVPWSSCFPIYSPYCMF* -1.426 0.000568 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25249 LASAVDPYKCYSTLGNNHSR 20 SLAY-screened peptide P3599 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGGCTTCGGCTGTCGACCCCTACAAGTGTTATTCGACCTTGGGGAATAATCACAGTAGGTAA LASAVDPYKCYSTLGNNHSR* -1.426 0.005426 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25250 SPETLPPSSSFRDSCRASCS 20 SLAY-screened peptide P3600 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCCCGAGACTCTGCCGCCTTCTTCTAGTTTTCGGGACTCGTGCCGGGCTAGTTGCTCGTAA SPETLPPSSSFRDSCRASCS* -1.426 0.001565 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25251 ITNSLYPATYTIATPFPVRV 20 SLAY-screened peptide P3601 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCACCAACTCGTTGTACCCTGCTACCTATACTATTGCCACCCCGTTTCCCGTCCGGGTGTAA ITNSLYPATYTIATPFPVRV* -1.426 0.00909 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25252 AWGQPLYHARTSYDCWAHSA 20 SLAY-screened peptide P3602 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTGGGGCCAGCCGCTTTACCACGCTCGTACCAGCTACGATTGCTGGGCGCATTCTGCGTAA AWGQPLYHARTSYDCWAHSA* -1.425 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25253 RGHPTATDSVGNKISIIVALN 21 SLAY-screened peptide P3603 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGGTCATCCTACTGCGACCGATAGCGTGGGCAACAAGATATCCATTATAGTCGCACTTAAC RGHPTATDSVGNKISIIVALN -1.425 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25254 RPSSPSVDAAWTRCPTYRSF 20 SLAY-screened peptide P3604 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCCAGTTCTCCGAGTGTGGATGCGGCTTGGACCCGTTGTCCCACGTATCGGTCTTTTTAA RPSSPSVDAAWTRCPTYRSF* -1.425 0.00087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25255 QILYCNKTHDHDQCLT 16 SLAY-screened peptide P3605 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGATCTTGTACTGTAACAAGACGCACGACCATGATCAGTGCCTCACCTAGGATGAGCAGTAA QILYCNKTHDHDQCLT*DEQ* -1.425 0.000031 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25256 HSS 3 SLAY-screened peptide P3606 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCCTCCTAGCTGAATGGCTCCGAGTCTAGTCTCCTGTTCTTTAGTCACGAGACCCTTTAA HSS*LNGSESSLLFFSHETL* -1.425 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25257 RAICYDDLTAPVLLVYYPCM 20 SLAY-screened peptide P3607 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCCATTTGCTATGATGACCTTACGGCCCCTGTTCTGTTGGTCTACTACCCTTGTATGTAA RAICYDDLTAPVLLVYYPCM* -1.425 0.000212 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25258 LLFCTNGSLQPSSGAPIFTC 20 SLAY-screened peptide P3608 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTGTTTTGTACGAATGGGTCCCTGCAGCCCTCTTCCGGTGCCCCTATCTTCACTTGTTAA LLFCTNGSLQPSSGAPIFTC* -1.425 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25259 KSFMAVPLSRRATSHTW 17 SLAY-screened peptide P3609 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTCCTTCATGGCCGTCCCCCTCTCTAGGCGCGCTACTTCTCACACTTGGTAGGTTTGTTAA KSFMAVPLSRRATSHTW*VC* -1.424 0.000204 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25260 RHHHTSAHDISDGRRSHGID 20 SLAY-screened peptide P3610 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCACCACCACACGTCTGCTCACGACATTAGCGATGGTCGCCGTTCTCATGGTATTGACTAA RHHHTSAHDISDGRRSHGID* -1.424 0.000189 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25261 IFNICVSPPLYGWINHQIIT 20 SLAY-screened peptide P3611 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTTTAATATTTGCGTCTCTCCTCCCCTGTACGGGTGGATCAATCACCAGATTATCACCTAA IFNICVSPPLYGWINHQIIT* -1.424 0.017581 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25262 PRSAPTLWGPNDGHCRPAQS 20 SLAY-screened peptide P3612 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGCTCGGCCCCTACTCTCTGGGGGCCCAACGATGGGCATTGCCGGCCGGCGCAGTCCTAA PRSAPTLWGPNDGHCRPAQS* -1.424 0.003167 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25263 CSVPPTYDTYIYSIRSLSFL 20 SLAY-screened peptide P3613 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTCTGTGCCGCCGACCTACGACACTTACATCTATTCCATCCGTTCTCTTTCTTTTCTCTAA CSVPPTYDTYIYSIRSLSFL* -1.423 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25264 LGLLSNSNYLELLYCFMGRN 20 SLAY-screened peptide P3614 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGGGTTGCTTTCTAATTCGAATTACCTTGAGTTGTTGTATTGCTTTATGGGGCGTAACTAA LGLLSNSNYLELLYCFMGRN* -1.423 0.025719 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25265 RCPYPFRLTCPCHYIVNKTD 20 SLAY-screened peptide P3615 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGTCCTTATCCCTTCCGGCTGACTTGCCCCTGCCACTATATTGTCAATAAGACTGATTAA RCPYPFRLTCPCHYIVNKTD* -1.423 0.000641 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25266 SSARDSSVNNV 11 SLAY-screened peptide P3616 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTCCGCGAGGGACTCGAGCGTGAATAACGTCTAGCTGACTATTCTGTAGCGGATGAGTTAA SSARDSSVNNV*LTIL*RMS* -1.423 0.001833 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25267 LHYESMCPATSNP 13 SLAY-screened peptide P3617 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCACTACGAGTCTATGTGCCCTGCTACTTCTAACCCTTAGCCTTCCAACCATACCACGTAA LHYESMCPATSNP*PSNHTT* -1.423 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25268 AAGTSGFYYFCCAFQFKDRS 20 SLAY-screened peptide P3618 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCGGGCACTTCTGGTTTCTACTATTTTTGTTGTGCTTTTCAGTTCAAGGATCGCTCTTAA AAGTSGFYYFCCAFQFKDRS* -1.423 0.003047 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25269 CHIGEVADGSLFQNNNRNIH 20 SLAY-screened peptide P3619 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCACATCGGTGAGGTCGCGGATGGTTCTTTGTTTCAGAATAATAATCGGAATATTCACTAA CHIGEVADGSLFQNNNRNIH* -1.423 0.000228 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25270 PSGCTSNFNWTLIAAPLFNH 20 SLAY-screened peptide P3620 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGCGGGTGTACTTCCAATTTCAATTGGACGCTGATTGCCGCGCCCTTGTTTAATCACTAA PSGCTSNFNWTLIAAPLFNH* -1.422 0.001212 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25271 PNSNSLTRYSTTTTHLFCFR 20 SLAY-screened peptide P3621 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAACAGTAACTCTCTTACTCGTTATAGCACGACCACTACCCATTTGTTCTGCTTCAGGTAA PNSNSLTRYSTTTTHLFCFR* -1.422 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25272 SFIVLPNFCYDLASAWPMLG 20 SLAY-screened peptide P3622 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTTCATTGTCCTCCCCAATTTTTGCTATGACTTGGCGTCGGCTTGGCCCATGCTGGGGTAA SFIVLPNFCYDLASAWPMLG* -1.422 0.006832 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25273 RLRASIANFTTKLCSSSNSL 20 SLAY-screened peptide P3623 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTTGCGGGCCTCCATTGCCAATTTCACTACTAAGCTGTGTTCTTCTAGTAACTCTCTCTAA RLRASIANFTTKLCSSSNSL* -1.422 0.024365 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25274 RYRVSTTVSFFD 12 SLAY-screened peptide P3624 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTACCGCGTTTCGACTACCGTTAGCTTCTTCGACTAGTCCTTCATGACCGGTTGGCCCTAA RYRVSTTVSFFD*SFMTGWP* -1.422 0.004321 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25275 STPITYHCRIRIQFDMRLRIY 21 SLAY-screened peptide P3625 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCACTCCGATCACTTATCATTGTCGCATTCGCATCCAGTTCGACATGCGCTTGAGGATCTAC STPITYHCRIRIQFDMRLRIY -1.421 0.002071 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25276 PFPCFNIFPRSYGCCDSIYR 20 SLAY-screened peptide P3626 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTTCCTTGCTTCAACATTTTCCCCCGCAGTTATGGCTGCTGTGACTCCATTTACCGCTAA PFPCFNIFPRSYGCCDSIYR* -1.421 0.029554 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25277 SAPGAGGRVTALF 13 SLAY-screened peptide P3627 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCTCCTGGCGCCGGGGGGCGCGTCACTGCGCTTTTTTAGTATACCGACCACGTGCCCTAA SAPGAGGRVTALF*YTDHVP* -1.421 0.006245 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25278 PSGAALWGVQSSATSPPILC 20 SLAY-screened peptide P3628 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCGGGCGCGGCGTTGTGGGGTGTGCAGTCGAGTGCTACCAGCCCGCCTATCCTTTGCTAA PSGAALWGVQSSATSPPILC* -1.421 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25279 NPNSLYSAHILTNSRPSEIT 20 SLAY-screened peptide P3629 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCCTAATTCCCTTTATTCTGCTCACATTCTTACCAATAGCCGGCCCAGTGAGATCACGTAA NPNSLYSAHILTNSRPSEIT* -1.421 0.004391 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25280 RRTCVPVYHVS 11 SLAY-screened peptide P3630 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGTACTTGCGTCCCCGTGTATCACGTGAGCTAGCCCTCTATGTGTCCCGTCCGCCGCTAA RRTCVPVYHVS*PSMCPVRR* -1.421 0.000437 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25281 PGLLANGPFSYGVLALMPFFY 21 SLAY-screened peptide P3631 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGCCTTCTCGCCAATGGTCCCTTTAGTTACGGCGTCCTCGCCCTTATGCCCTTTTTCTAC PGLLANGPFSYGVLALMPFFY -1.421 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25282 ALAFSHRHTTPGSVDAVPAS 20 SLAY-screened peptide P3632 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCTGGCTTTTTCCCACCGTCATACCACGCCCGGCTCTGTCGACGCCGTCCCCGCTAGTTAA ALAFSHRHTTPGSVDAVPAS* -1.42 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25283 NPVCSPVTVVATWSPSLRTPN 21 SLAY-screened peptide P3633 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCCGGTGTGTAGCCCGGTAACTGTTGTTGCTACTTGGAGCCCGTCTTTACGTACGCCTAAC NPVCSPVTVVATWSPSLRTPN -1.42 0.003657 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25284 GVGTTTHVYLSEYSATALAD 20 SLAY-screened peptide P3634 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGTCGGGACGACGACCCATGTCTACCTCTCCGAGTATTCGGCGACTGCCCTGGCTGATTAA GVGTTTHVYLSEYSATALAD* -1.42 0.005051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25285 LFAVDLNGPNPCSYSSHPMV 20 SLAY-screened peptide P3635 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTTTGCGGTCGACCTTAATGGGCCCAACCCCTGCAGCTATTCTTCTCATCCTATGGTGTAA LFAVDLNGPNPCSYSSHPMV* -1.42 0.000115 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25286 MVLMNPIVEICPSVAMSQLE 20 SLAY-screened peptide P3636 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGTTCTGATGAACCCCATCGTCGAGATCTGCCCTTCCGTCGCGATGAGTCAGCTTGAGTAA MVLMNPIVEICPSVAMSQLE* -1.42 0.000547 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25287 RVARILHGLNIRFMRKSKPD 20 SLAY-screened peptide P3637 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGTGGCTCGCATCCTGCATGGTCTCAATATTCGCTTTATGCGTAAGAGTAAGCCTGATTAA RVARILHGLNIRFMRKSKPD* -1.42 0.00007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25288 TGIKFTDHFGSSGQNPFACV 20 SLAY-screened peptide P3638 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGGTATTAAGTTTACTGATCATTTTGGCAGTAGTGGGCAGAACCCGTTTGCCTGTGTTTAA TGIKFTDHFGSSGQNPFACV* -1.42 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25289 MDPLWADSMLL 11 SLAY-screened peptide P3639 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGATCCTCTTTGGGCGGACTCTATGCTTTTGTAGGAGATTCTGCCGACTCCCCAGCATTAA MDPLWADSMLL*EILPTPQH* -1.419 0.000365 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25290 PSL 3 SLAY-screened peptide P3640 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCCCTTTAGGTTTGCCCGACCATGAACGCCTCTGCCCATCCCCAGTAGGAGAATGGGTAA PSL*VCPTMNASAHPQ*ENG* -1.419 0.002457 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25291 PDVAASAHTIPFPCGTIELL 20 SLAY-screened peptide P3641 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGATGTCGCCGCCTCGGCTCATACTATTCCTTTCCCGTGTGGTACCATTGAGCTGCTTTAA PDVAASAHTIPFPCGTIELL* -1.419 0.027227 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25292 CMRYLLVDRTDASPSHNFNY 20 SLAY-screened peptide P3642 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTATGCGCTATCTTCTCGTGGATCGCACGGATGCGTCTCCTAGCCATAACTTTAATTACTAA CMRYLLVDRTDASPSHNFNY* -1.419 0.000064 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25293 PAGVHYHCMTAFGDI 15 SLAY-screened peptide P3643 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCGGGGGTGCACTACCATTGCATGACCGCTTTCGGGGACATCTAGCCGCCCCATTACTAA PAGVHYHCMTAFGDI*PPHY* -1.419 0.028323 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25294 TFETCPQEHSYISSSAPDTS 20 SLAY-screened peptide P3644 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTTTGAGACCTGCCCCCAGGAGCATTCTTACATCAGTAGCTCTGCCCCCGATACTTCCTAA TFETCPQEHSYISSSAPDTS* -1.419 0.001507 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25295 DWLRCGHNCNACPFQLWERS 20 SLAY-screened peptide P3645 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTGGCTCCGCTGCGGTCATAATTGCAATGCTTGCCCTTTCCAGCTTTGGGAGCGCTCGTAA DWLRCGHNCNACPFQLWERS* -1.419 0.009628 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25296 ETFIPSSTALPDHASYHLHL 20 SLAY-screened peptide P3646 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGACCTTTATCCCCTCCTCGACTGCTCTGCCGGATCACGCGTCCTACCATTTGCATTTGTAA ETFIPSSTALPDHASYHLHL* -1.419 0.043905 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25297 LQDFTFSTPLSSQLLSYDGR 20 SLAY-screened peptide P3647 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCAGGATTTTACCTTCAGTACGCCTCTTTCGTCCCAGCTTCTGTCTTACGATGGTCGTTAA LQDFTFSTPLSSQLLSYDGR* -1.419 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25298 HAVSNAGPRIPGYLVPIVCD 20 SLAY-screened peptide P3648 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCGGTCAGTAACGCGGGGCCGCGGATCCCTGGTTATCTTGTGCCCATCGTCTGTGACTAA HAVSNAGPRIPGYLVPIVCD* -1.419 0.000912 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25299 EEATSVSLLLPYRNTYPDAC 20 SLAY-screened peptide P3649 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGAGGCGACGTCCGTGTCTCTTTTGCTTCCGTACCGTAACACTTACCCTGACGCGTGTTAA EEATSVSLLLPYRNTYPDAC* -1.419 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25300 PNNHWPTLFPASRFGPCYAF 20 SLAY-screened peptide P3650 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAACAATCATTGGCCTACTCTCTTCCCCGCGTCCAGGTTTGGCCCCTGCTACGCCTTCTAA PNNHWPTLFPASRFGPCYAF* -1.419 0.008337 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25301 MSPRPWFPLTVLYLTYFEDT 20 SLAY-screened peptide P3651 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTCTCCCCGTCCTTGGTTCCCTCTGACCGTTCTTTACCTTACCTACTTCGAGGATACCTAA MSPRPWFPLTVLYLTYFEDT* -1.418 0.007213 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25302 AMRDVGGLFSRILRSILRLIN 21 SLAY-screened peptide P3652 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCATGCGTGATGTGGGCGGCTTGTTCAGCAGAATTTTAAGATCAATACTTAGATTGATTAAC AMRDVGGLFSRILRSILRLIN -1.418 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25303 DATRNPRLSIQTNA 14 SLAY-screened peptide P3653 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGCTACCCGGAATCCGAGGCTCTCCATTCAGACGAACGCTTAGTTTAATACTGTTGGTTAA DATRNPRLSIQTNA*FNTVG* -1.418 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25304 GVYKVAE 7 SLAY-screened peptide P3654 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGGTGTATAAGGTGGCGGAGTAGCGGCGCAACACGGACGTGGACACTTTTAACGGTAGTTAA GVYKVAE*RRNTDVDTFNGS* -1.417 0.034218 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25305 LVGANFSETCPLND 14 SLAY-screened peptide P3655 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGGTTGGTGCTAACTTTAGTGAGACTTGCCCTCTGAATGATTAGACTCCTCATAACGGGTAA LVGANFSETCPLND*TPHNG* -1.417 0.028268 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25306 GSYYHDMSFRHPNPPTG 17 SLAY-screened peptide P3656 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGTCTTACTACCATGACATGAGCTTTCGGCATCCGAACCCCCCCACCGGTTAGAATACTTAA GSYYHDMSFRHPNPPTG*NT* -1.416 0.000072 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25307 HRSHNSTVYSYVRNRYIPTG 20 SLAY-screened peptide P3657 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCGTTCGCATAACTCCACTGTTTACTCGTACGTTAGGAACCGTTATATTCCCACCGGTTAA HRSHNSTVYSYVRNRYIPTG* -1.416 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25308 VEIPASRLLPHRPGHHHSIY 20 SLAY-screened peptide P3658 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGAGATTCCCGCTAGCCGCCTTCTTCCGCATAGGCCTGGCCATCATCATAGTATTTATTAA VEIPASRLLPHRPGHHHSIY* -1.416 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25309 TDNTSHNAGSRKNIQFHGESL 21 SLAY-screened peptide P3659 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGACAACACTAGCCATAATGCTGGTAGTCGTAAGAATATTCAATTTCACGGTGAATCCCTA TDNTSHNAGSRKNIQFHGESL -1.416 0.000895 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25310 LLNQFSTDAHRRLHWLSYSK 20 SLAY-screened peptide P3660 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTTAACCAGTTCTCGACCGACGCGCACCGGCGCCTTCACTGGCTTTCTTACAGCAAGTAA LLNQFSTDAHRRLHWLSYSK* -1.415 0.004536 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25311 CRMTITSGASCP 12 SLAY-screened peptide P3661 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCGTATGACCATTACTAGTGGGGCGAGCTGTCCTTAGAGCGACTGCTAGAATATGAGCTAA CRMTITSGASCP*SDC*NMS* -1.415 0.002002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25312 LTRAPHAASHCFNTLNSLDA 20 SLAY-screened peptide P3662 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACTAGGGCCCCCCACGCGGCGTCCCACTGCTTCAACACCCTGAACTCTCTGGATGCGTAA LTRAPHAASHCFNTLNSLDA* -1.415 0.000139 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25313 KNLNTVQPSPAHIPIPRRTAN 21 SLAY-screened peptide P3663 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGAACCTTAACACCGTGCAGCCGTCTCCTGCGCACATTCCTATTCCCAGACGGACCGCTAAC KNLNTVQPSPAHIPIPRRTAN -1.415 0.04411 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25314 RIHTRDQPRQPVFRCDLNAD 20 SLAY-screened peptide P3664 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTATCCACACCAGGGACCAGCCCCGTCAGCCCGTCTTCAGGTGCGATCTGAATGCTGACTAA RIHTRDQPRQPVFRCDLNAD* -1.415 0.000026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25315 LIWSDLQQASYRHNSGFFVP 20 SLAY-screened peptide P3665 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATCTGGTCCGACTTGCAGCAGGCCAGCTATCGCCACAATAGTGGTTTCTTCGTTCCCTAA LIWSDLQQASYRHNSGFFVP* -1.415 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25316 WIRRWVYSSFQNRTPTRKGS 20 SLAY-screened peptide P3666 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGATCCGCCGGTGGGTGTATTCGAGCTTTCAGAATCGCACCCCCACTCGGAAGGGGTCCTAA WIRRWVYSSFQNRTPTRKGS* -1.414 0.000073 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25317 VPDAVPLNATWSQTQSYKRV 20 SLAY-screened peptide P3667 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCCTGACGCCGTGCCGCTCAACGCTACTTGGAGTCAGACCCAGTCCTATAAGAGGGTGTAA VPDAVPLNATWSQTQSYKRV* -1.414 0.002377 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25318 RWLLPTAVNNCISTPVFWRGN 21 SLAY-screened peptide P3668 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTGGCTGTTGCCCACCGCGGTCAACAATTGTATCTCGACACCTGTTTTCTGGAGGGGTAAC RWLLPTAVNNCISTPVFWRGN -1.414 0.005225 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25319 PCFYVVSIIPWLYDYSMLSC 20 SLAY-screened peptide P3669 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTTTCTATGTCGTCTCTATTATTCCTTGGCTCTATGACTACTCCATGCTGTCCTGCTAA PCFYVVSIIPWLYDYSMLSC* -1.414 0.000402 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25320 IGMANVKCTHTHRWTFAMST 20 SLAY-screened peptide P3670 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGGTATGGCCAACGTGAAGTGCACGCACACCCACCGCTGGACTTTCGCCATGTCTACGTAA IGMANVKCTHTHRWTFAMST* -1.414 0.019065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25321 VCPDAYLTASLCDRYNFAA 19 SLAY-screened peptide P3671 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTGCCCTGACGCGTACCTTACCGCGAGCCTTTGTGATAGGTACAATTTTGCTGCTTAGTAA VCPDAYLTASLCDRYNFAA** -1.413 0.00172 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25322 HPNLTNICFQHEILDYDLLM 20 SLAY-screened peptide P3672 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCTAATCTCACCAACATCTGTTTCCAGCACGAGATTTTGGACTACGACCTTCTGATGTAA HPNLTNICFQHEILDYDLLM* -1.413 0.007148 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25323 PWLYLTDLAHHRTPSLNTAD 20 SLAY-screened peptide P3673 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGGTTGTACTTGACTGACCTGGCTCACCACCGTACTCCGTCTCTTAACACCGCCGATTAA PWLYLTDLAHHRTPSLNTAD* -1.413 0.000126 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25324 AYTDFVLRLISPSCTASMYL 20 SLAY-screened peptide P3674 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTATACCGATTTCGTTCTGAGGTTGATCAGCCCCAGCTGTACGGCCAGTATGTATCTCTAA AYTDFVLRLISPSCTASMYL* -1.413 0.000676 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25325 IDGTQMDACL 10 SLAY-screened peptide P3675 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGACGGCACTCAGATGGATGCCTGTTTGTAGAAGATTGGGTGTCTCCACCGGAATTTCTAA IDGTQMDACL*KIGCLHRNF* -1.413 0.000071 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25326 PMNIIRCYPINWTT 14 SLAY-screened peptide P3676 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATGAACATTATCCGTTGCTACCCGATTAATTGGACTACGTAGGAGCTTTAGTTTCCCTAA PMNIIRCYPINWTT*EL*FP* -1.413 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25327 HWTPQKCYDIFPDHSVIHFV 20 SLAY-screened peptide P3677 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGGACTCCGCAGAAGTGCTACGACATTTTCCCCGACCATTCTGTCATTCACTTTGTTTAA HWTPQKCYDIFPDHSVIHFV* -1.412 0.026328 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25328 SPHWAHAEQDVP 12 SLAY-screened peptide P3678 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCTCATTGGGCTCACGCTGAGCAGGACGTTCCCTAATAATCTTACCTTGTAACTGAGTAA SPHWAHAEQDVP**SYLVTE* -1.412 0.027354 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25329 WPILCPNRYIIISYANAGLTY 21 SLAY-screened peptide P3679 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCCATCCTGTGCCCCAACAGGTACATTATTATCAGTTACGCCAACGCCGGGCTTACGTAC WPILCPNRYIIISYANAGLTY -1.412 0.009928 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25330 NYSEGVEKPVFECIALHNFR 20 SLAY-screened peptide P3680 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTACAGCGAGGGCGTGGAGAAGCCCGTGTTTGAGTGTATCGCTCTTCATAATTTCCGTTAA NYSEGVEKPVFECIALHNFR* -1.412 0.023023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25331 LRATPAERLSHVNSITNVMV 20 SLAY-screened peptide P3681 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCGCGCCACGCCCGCTGAGCGTCTCTCTCACGTTAACTCGATCACTAACGTCATGGTCTAA LRATPAERLSHVNSITNVMV* -1.412 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25332 PPWLHSHAHYSTCVYPTGTT 20 SLAY-screened peptide P3682 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCTGGCTTCACTCCCATGCCCACTATTCTACCTGTGTTTATCCTACGGGTACGACGTAA PPWLHSHAHYSTCVYPTGTT* -1.411 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25333 PIYPYDKYRYSNCPFYYVDI 20 SLAY-screened peptide P3683 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATTTATCCGTACGACAAGTATCGGTATAGCAATTGTCCGTTTTATTATGTTGATATCTAA PIYPYDKYRYSNCPFYYVDI* -1.411 0.002264 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25334 DCDPYLPSTPYPLTLHHWII 20 SLAY-screened peptide P3684 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTGTGATCCTTATCTTCCGTCGACGCCCTATCCTCTGACCCTCCACCACTGGATCATCTAA DCDPYLPSTPYPLTLHHWII* -1.411 0.003721 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25335 LSQAPSRLCYCSYTYNTEMQ 20 SLAY-screened peptide P3685 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGAGTCAGGCCCCTAGCCGTTTGTGCTACTGCTCTTATACCTACAACACTGAGATGCAGTAA LSQAPSRLCYCSYTYNTEMQ* -1.411 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25336 DPGHKTMLDFLACPLLTRLL 20 SLAY-screened peptide P3686 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCCGGCCACAAGACGATGCTCGACTTCCTGGCCTGTCCTCTGCTCACTAGGCTTCTCTAA DPGHKTMLDFLACPLLTRLL* -1.411 0.000161 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25337 NLVT 4 SLAY-screened peptide P3687 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTTGGTCACTTAGAGCACCATGAGCCTGGGCATTACATCCATGGGTATCCGTCTGCCTAAC NLVT*STMSLGITSMGIRLPN -1.41 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25338 YSPSHAWSISDKTTSKQIND 20 SLAY-screened peptide P3688 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCGCCGAGTCATGCCTGGAGTATCAGCGATAAGACGACGAGCAAGCAGATTAATGATTAA YSPSHAWSISDKTTSKQIND* -1.41 0.00465 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25339 PGFSYYIILCYDLFTSSRTS 20 SLAY-screened peptide P3689 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGCTTCAGCTATTATATTATCCTTTGTTATGACCTTTTCACTAGTTCCCGCACCTCTTAA PGFSYYIILCYDLFTSSRTS* -1.41 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25340 PGPTSHKLRKRQSWHFDGSP 20 SLAY-screened peptide P3690 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGGGCCCACTTCTCATAAGTTGCGTAAGCGCCAGAGTTGGCATTTTGACGGGAGTCCCTAA PGPTSHKLRKRQSWHFDGSP* -1.41 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25341 ACVPST 6 SLAY-screened peptide P3691 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTGCGTTCCCTCCACCTAGTGTCCGTTTGTGAGCGGTTTTACTCAGTTCTTGTGTAGGTAA ACVPST*CPFVSGFTQFLCR* -1.41 0.003652 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25342 RCSPLIYLSHNHAYHTPPAL 20 SLAY-screened peptide P3692 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTGCAGTCCTCTTATCTACCTCAGCCATAACCATGCTTATCACACCCCCCCGGCCTTGTAA RCSPLIYLSHNHAYHTPPAL* -1.41 0.023556 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25343 SPVLTATAWVNRITPYTPGV 20 SLAY-screened peptide P3693 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCCGTTTTGACCGCGACCGCGTGGGTCAACCGCATTACTCCCTATACCCCTGGTGTCTAA SPVLTATAWVNRITPYTPGV* -1.41 0.006406 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25344 MHLNCNDFTPVHGSY 15 SLAY-screened peptide P3694 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCACCTGAATTGTAACGATTTTACTCCGGTTCATGGTTCCTACTAGATGCGCGCTTGGTAA MHLNCNDFTPVHGSY*MRAW* -1.409 0.014383 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25345 CRSRTSTAEQNTSVHRGTII 20 SLAY-screened peptide P3695 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAGGAGTCGGACTTCGACCGCCGAGCAGAATACTTCCGTTCACCGCGGTACTATTATTTAA CRSRTSTAEQNTSVHRGTII* -1.409 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25346 RPSAPSQDVQTGSAITLIFH 20 SLAY-screened peptide P3696 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCGTCCGCGCCGTCCCAGGACGTTCAGACGGGCAGCGCCATCACGCTCATTTTTCACTAA RPSAPSQDVQTGSAITLIFH* -1.409 0.000973 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25347 LSTANYPHLP 10 SLAY-screened peptide P3697 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCCACGGCGAACTATCCCCACCTCCCCTAGCCCCTGAACTCTAAGAGCCCGCGCCTTTAA LSTANYPHLP*PLNSKSPRL* -1.409 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25348 LLGAVMALLTHVQNLKRINR 20 SLAY-screened peptide P3698 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTGGGCGCTGTGATGGCTCTCCTCACCCACGTTCAGAACCTGAAGCGGATTAATCGGTAA LLGAVMALLTHVQNLKRINR* -1.409 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25349 ASRARFNTLAIIPPRCNITT 20 SLAY-screened peptide P3699 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAGCCGCGCCCGCTTCAACACTCTCGCCATTATCCCCCCTCGCTGTAACATCACTACTTAA ASRARFNTLAIIPPRCNITT* -1.409 0.000125 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25350 CCAMVRRLFHWLRLSSFIGH 20 SLAY-screened peptide P3700 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTGTGCTATGGTCCGGCGGCTGTTCCACTGGCTTCGCCTCTCCTCGTTTATCGGTCACTAA CCAMVRRLFHWLRLSSFIGH* -1.409 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25351 LIYLLIFIFPQHITYGLLDD 20 SLAY-screened peptide P3701 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATTTATCTTTTGATTTTCATTTTTCCCCAGCACATTACTTACGGGCTTCTCGATGACTAA LIYLLIFIFPQHITYGLLDD* -1.408 0.014022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25352 VTNPLMPLARRSITSSPYVG 20 SLAY-screened peptide P3702 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCACTAACCCCCTCATGCCCCTCGCCAGGCGCTCCATTACGAGCTCCCCTTACGTCGGCTAA VTNPLMPLARRSITSSPYVG* -1.408 0.000158 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25353 TKRPILAPLYGFDDVAPFST 20 SLAY-screened peptide P3703 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAAGCGCCCTATCCTTGCCCCGCTCTATGGGTTCGACGACGTCGCCCCTTTCAGCACCTAA TKRPILAPLYGFDDVAPFST* -1.408 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25354 QSVPPSYLLHFISPLGPCFV 20 SLAY-screened peptide P3704 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTCTGTCCCCCCTTCTTATCTCCTGCATTTTATTTCCCCTTTGGGGCCTTGTTTTGTGTAA QSVPPSYLLHFISPLGPCFV* -1.408 0.003129 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25355 CLWDPVPITGYLAVNALRTF 20 SLAY-screened peptide P3705 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTTTGGGACCCTGTTCCGATCACGGGCTACCTTGCGGTTAACGCTTTGCGTACGTTTTAA CLWDPVPITGYLAVNALRTF* -1.408 0.000075 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25356 LNVRRHNFCPITVPTYNIMF 20 SLAY-screened peptide P3706 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAACGTTCGTCGGCATAACTTCTGCCCCATCACTGTGCCTACTTATAACATTATGTTTTAA LNVRRHNFCPITVPTYNIMF* -1.408 0.000585 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25357 SL 2 SLAY-screened peptide P3707 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCTGTAGGTCGCTCATAAGTGTCGTGAGGTGAGCACGCTTTTCTGAAGAAGATCCCGTAAC SL*VAHKCREVSTLF*RRSRN -1.407 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25358 SSYTHPFTRPCAKDMLMLLT 20 SLAY-screened peptide P3708 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTCCTACACCCACCCTTTCACGCGCCCGTGCGCCAAGGACATGCTTATGCTGCTTACTTAA SSYTHPFTRPCAKDMLMLLT* -1.407 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25359 FPHHMYDVRLIQFPPNSTSR 20 SLAY-screened peptide P3709 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCCTCATCATATGTATGATGTTCGCCTTATCCAGTTTCCTCCCAATTCTACCTCCCGTTAA FPHHMYDVRLIQFPPNSTSR* -1.407 0.021074 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25360 SMLLVRLNHRVHFSHAYKRF 20 SLAY-screened peptide P3710 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCATGCTTCTTGTTCGCCTTAATCATCGTGTCCACTTCTCGCACGCTTACAAGCGTTTCTAA SMLLVRLNHRVHFSHAYKRF* -1.407 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25361 PNCLHLLQNSVCTRWLTSSR 20 SLAY-screened peptide P3711 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAATTGTCTCCACTTGCTTCAGAACAGTGTTTGCACCAGGTGGCTCACTTCCAGTAGGTAA PNCLHLLQNSVCTRWLTSSR* -1.407 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25362 RWCDVPPLVDYEIAPAILPS 20 SLAY-screened peptide P3712 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGGTGTGATGTGCCGCCCCTCGTCGATTATGAGATCGCTCCTGCTATTTTGCCGAGCTAA RWCDVPPLVDYEIAPAILPS* -1.407 0.013488 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25363 SYDQDMFINWHPCHDSHYHL 20 SLAY-screened peptide P3713 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTATGACCAGGACATGTTTATTAATTGGCATCCTTGCCACGATAGTCATTATCACCTGTAA SYDQDMFINWHPCHDSHYHL* -1.407 0.00636 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25364 TLQYSPHVPDRTWYVHN 17 SLAY-screened peptide P3714 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTCCAGTATTCCCCCCATGTCCCGGATAGGACTTGGTATGTTCACAATTAGTTTTGCTAA TLQYSPHVPDRTWYVHN*FC* -1.407 0.000414 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25365 INGFAERRSVSLPLLIRGTFN 21 SLAY-screened peptide P3715 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAACGGTTTTGCGGAGAGGCGTTCGGTTAGTCTTCCGCTACTGATCCGTGGCACTTTTAAC INGFAERRSVSLPLLIRGTFN -1.406 0.025627 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25366 IVS 3 SLAY-screened peptide P3716 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGTTTCTTAGTCGTACCCGGGCCGGGTTACGGTCCTTAATAGCTACAACACTGGTTTCTAA IVS*SYPGRVTVLNSYNTGF* -1.406 0.016867 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25367 YARNDVLCQTSISMMIITPSN 21 SLAY-screened peptide P3717 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCGCGGAACGATGTCCTGTGTCAGACGAGCATCAGCATGATGATCATAACCCCAAGTAAC YARNDVLCQTSISMMIITPSN -1.406 0.000231 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25368 STHPNTGSNIEPPNFRSSDS 20 SLAY-screened peptide P3718 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGACTCACCCTAATACCGGCTCGAACATCGAGCCCCCCAACTTCCGCTCCTCCGACTCTTAA STHPNTGSNIEPPNFRSSDS* -1.406 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25369 IFATTSRFQSHSLLALKILF 20 SLAY-screened peptide P3719 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTTTGCCACCACTAGCCGGTTTCAGTCTCACTCTCTCCTGGCCCTCAAGATTCTGTTCTAA IFATTSRFQSHSLLALKILF* -1.406 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25370 PFTRNHGPRCLRLRDFCSCH 20 SLAY-screened peptide P3720 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTCACGAGGAACCACGGGCCCCGTTGCTTGCGGCTTCGTGATTTCTGTTCTTGCCACTAA PFTRNHGPRCLRLRDFCSCH* -1.405 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25371 LRPTYTSPAIYRPYNLYSHS 20 SLAY-screened peptide P3721 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGCCCCACCTACACGAGTCCTGCCATTTACAGGCCTTACAACCTCTACAGTCACAGTTAA LRPTYTSPAIYRPYNLYSHS* -1.405 0.001397 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25372 LFIILARWLNHYDKSKGITP 20 SLAY-screened peptide P3722 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTTTATTATCCTCGCCAGGTGGCTCAATCACTACGATAAGTCTAAGGGCATCACTCCTTAA LFIILARWLNHYDKSKGITP* -1.405 0.000619 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25373 HPSRQPTSCLNTSDFLYVYL 20 SLAY-screened peptide P3723 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCCTCCCGTCAGCCTACTTCGTGCCTTAACACCAGCGACTTTCTTTACGTCTACCTCTAA HPSRQPTSCLNTSDFLYVYL* -1.405 0.000139 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25374 PGSGSH 6 SLAY-screened peptide P3724 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGGAGTGGGTCGCATTAGCGTCATGTTATGTGGCTGTGGTGTCCCTCTCGCACCCTCTAA PGSGSH*RHVMWLWCPSRTL* -1.405 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25375 TRGINVVSAHTHVPHNSFAV 20 SLAY-screened peptide P3725 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCGGGGTATTAACGTGGTCAGCGCCCATACCCATGTCCCCCACAATTCGTTCGCCGTCTAA TRGINVVSAHTHVPHNSFAV* -1.405 0.040434 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25376 APIANPCRIFYVPNIWLPYV 20 SLAY-screened peptide P3726 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCCATCGCGAATCCTTGCAGGATTTTCTACGTGCCCAATATTTGGCTGCCGTACGTGTAA APIANPCRIFYVPNIWLPYV* -1.405 0.00003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25377 SYLTCPPSVFPQWSV 15 SLAY-screened peptide P3727 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTACCTCACCTGCCCTCCTTCCGTTTTCCCCCAGTGGAGCGTGTAGCACCATTGCACCTAA SYLTCPPSVFPQWSV*HHCT* -1.405 0.034489 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25378 YGLVSFTHPGQHTDYRVMLH 20 SLAY-screened peptide P3728 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGGTCTGGTTAGTTTCACGCATCCTGGTCAGCACACGGATTACCGTGTTATGCTCCATTAA YGLVSFTHPGQHTDYRVMLH* -1.405 0.017657 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25379 LWKIPIPKAQYSRRIHCLGT 20 SLAY-screened peptide P3729 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGGAAGATTCCGATTCCGAAGGCCCAGTACTCCCGTAGGATCCATTGTCTTGGCACGTAA LWKIPIPKAQYSRRIHCLGT* -1.404 0.000229 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25380 RPITAISLSVLVLGSIRLRFN 21 SLAY-screened peptide P3730 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCCATAACCGCTATCTCACTAAGCGTACTCGTGCTAGGGTCAATTAGACTTCGGTTTAAC RPITAISLSVLVLGSIRLRFN -1.404 0.000015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25381 NCTANVLVGII 11 SLAY-screened peptide P3731 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGTACTGCCAATGTTCTTGTTGGCATTATCTAGATGATTATGACTGAGAAGGCTCCTTAA NCTANVLVGII*MIMTEKAP* -1.404 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25382 TCYHNLHPEFRYPTLDFSMI 20 SLAY-screened peptide P3732 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTGTTATCACAATTTGCACCCTGAGTTCCGGTACCCCACTCTCGATTTCAGTATGATCTAA TCYHNLHPEFRYPTLDFSMI* -1.404 0.025698 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25383 FPRLGYSYDLVSPCYLPLLN 20 SLAY-screened peptide P3733 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCTCGGCTTGGCTATTCCTATGACCTCGTTAGCCCTTGTTACTTGCCCTTGTTGAACTAA FPRLGYSYDLVSPCYLPLLN* -1.404 0.015514 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25384 RAP 3 SLAY-screened peptide P3734 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCGCCCTGATGCCGACGCCCAAGCCGTGCGAGATGAAGCACTCGTGTTTCCCGCTTTAAC RAP*CRRPSRAR*STRVSRFN -1.404 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25385 PTVFFTARPSFQSDNHTAFW 20 SLAY-screened peptide P3735 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACTGTCTTCTTCACCGCCCGGCCCTCTTTTCAGAGTGACAATCATACCGCTTTCTGGTAA PTVFFTARPSFQSDNHTAFW* -1.404 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25386 HA 2 SLAY-screened peptide P3736 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCTTAGCAGCAGAACATTCATAATCCGCCTACGACGTGGGTTTATAGTAGCCCCAAGTAA HA*QQNIHNPPTTWVYSSPK* -1.404 0.003106 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25387 SDISPTRPWLYNNYECWAPL 20 SLAY-screened peptide P3737 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGACATTTCTCCTACGCGTCCCTGGCTCTACAACAATTACGAGTGCTGGGCCCCGCTTTAA SDISPTRPWLYNNYECWAPL* -1.403 0.027406 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25388 RLYRHPTGRQSRPLGCFATF 20 SLAY-screened peptide P3738 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTTTATCGCCATCCGACTGGCCGTCAGAGTCGTCCGCTGGGTTGTTTCGCCACGTTCTAA RLYRHPTGRQSRPLGCFATF* -1.403 0.016425 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25389 FSVSHTYSDHVGTNLHISGL 20 SLAY-screened peptide P3739 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTAGCGTCAGCCACACTTATAGTGACCATGTGGGCACTAATCTGCACATCTCCGGCCTCTAA FSVSHTYSDHVGTNLHISGL* -1.403 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25390 HSGSPLSCDAPNFYPYFWHV 20 SLAY-screened peptide P3740 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTCCGGCTCGCCTCTCAGCTGTGATGCGCCCAATTTTTATCCTTACTTTTGGCACGTCTAA HSGSPLSCDAPNFYPYFWHV* -1.402 0.038027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25391 SRKHTCFIADCSQCSLQFVN 20 SLAY-screened peptide P3741 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCGGAAGCACACGTGCTTCATTGCGGACTGCAGCCAGTGCAGCCTCCAGTTCGTTAATTAA SRKHTCFIADCSQCSLQFVN* -1.402 0.000158 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25392 SVMYTCNTYTTWAGRPTVVT 20 SLAY-screened peptide P3742 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGTCATGTATACTTGCAATACGTACACTACTTGGGCCGGCCGTCCCACTGTTGTGACCTAA SVMYTCNTYTTWAGRPTVVT* -1.402 0.04727 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25393 PIHKSQNLHGYLLFIIRAPP 20 SLAY-screened peptide P3743 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATCCATAAGTCCCAGAATCTCCACGGCTACTTGCTCTTCATTATCAGGGCCCCCCCTTAA PIHKSQNLHGYLLFIIRAPP* -1.402 0.0163 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25394 PSLGLHHFHTIAQNLVNATK 20 SLAY-screened peptide P3744 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCCTGGGCCTGCATCATTTTCACACCATCGCGCAGAATTTGGTGAATGCCACTAAGTAA PSLGLHHFHTIAQNLVNATK* -1.402 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25395 RPTVKADCLLFLNFFNVHNN 20 SLAY-screened peptide P3745 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCTACCGTTAAGGCGGACTGTCTGCTTTTTCTCAATTTCTTCAATGTTCATAATAATTAA RPTVKADCLLFLNFFNVHNN* -1.401 0.011903 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25396 VLRNTLHCCSIVIRSSSGHW 20 SLAY-screened peptide P3746 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCTTCGTAACACCCTTCACTGCTGCTCGATTGTTATTCGCTCGTCCTCGGGTCATTGGTAA VLRNTLHCCSIVIRSSSGHW* -1.401 0.00074 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25397 AVPLLHGVPLFWYF 14 SLAY-screened peptide P3747 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGTTCCTCTCCTGCACGGTGTCCCTCTCTTCTGGTATTTCTAGTTGACCTCTGCTTGGTAA AVPLLHGVPLFWYF*LTSAW* -1.401 0.040579 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25398 FLPVRYILGRPIL 13 SLAY-screened peptide P3748 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTTGCCCGTGCGCTACATTCTGGGCCGCCCTATTCTTTAGCGTTAGAGTCAGACCACGTAA FLPVRYILGRPIL*R*SQTT* -1.401 0.010932 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25399 QLETRPSYNFTILPAYTKVN 20 SLAY-screened peptide P3749 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCTTGAGACTCGTCCCAGCTATAATTTTACTATTCTCCCTGCCTACACTAAGGTTAATTAA QLETRPSYNFTILPAYTKVN* -1.401 0.005856 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25400 SPSTNFCNVLRLDTLNVNRS 20 SLAY-screened peptide P3750 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCCCTCCACGAACTTCTGCAATGTTCTCCGCCTGGACACCTTGAATGTGAACCGTAGTTAA SPSTNFCNVLRLDTLNVNRS* -1.401 0.00014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25401 ACTPRSWGPGPLTPTSTI 18 SLAY-screened peptide P3751 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTGTACCCCCAGATCCTGGGGGCCGGGACCTCTTACTCCCACTTCCACGATATGACTTAAC ACTPRSWGPGPLTPTSTI*LN -1.4 0.036448 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25402 TLHHCNDSSQHYASYYLYRA 20 SLAY-screened peptide P3752 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTTCATCACTGTAATGACTCTTCCCAGCACTACGCTAGCTATTATTTGTACCGTGCCTAA TLHHCNDSSQHYASYYLYRA* -1.4 0.000508 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25403 NHLCGPLDYSDVFSDLPDDW 20 SLAY-screened peptide P3753 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCATCTTTGCGGTCCGCTTGATTACAGTGACGTCTTCAGTGATTTGCCTGACGACTGGTAA NHLCGPLDYSDVFSDLPDDW* -1.4 0.008096 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25404 PLFGRAGLEIHITTFSYSTM 20 SLAY-screened peptide P3754 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCTTTGGCCGCGCCGGGCTGGAGATCCACATTACTACTTTCTCCTACTCTACCATGTAA PLFGRAGLEIHITTFSYSTM* -1.4 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25405 LSYNSTHYNQHVAYTTFYCT 20 SLAY-screened peptide P3755 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCTTACAACTCTACTCACTATAATCAGCATGTTGCTTATACGACCTTTTATTGCACGTAA LSYNSTHYNQHVAYTTFYCT* -1.4 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25406 QPSTVITRLPMRRYHSLHVA 20 SLAY-screened peptide P3756 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCGTCTACTGTCATCACGCGTCTCCCCATGCGGCGCTATCACAGTCTCCATGTCGCCTAA QPSTVITRLPMRRYHSLHVA* -1.4 0.00206 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25407 AALRHTPWHTSRTHQDRGFS 20 SLAY-screened peptide P3757 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCGCTTCGTCATACCCCGTGGCATACCTCTCGTACGCATCAGGACCGCGGGTTCTCCTAA AALRHTPWHTSRTHQDRGFS* -1.399 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25408 HHSLGFINRYL 11 SLAY-screened peptide P3758 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCATAGCCTTGGCTTTATTAACCGTTATCTTTAGGATAGCTGCTTTTCCAATAACCTGTAA HHSLGFINRYL*DSCFSNNL* -1.399 0.001283 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25409 NSPEPVFLDPRCPGWPYRIV 20 SLAY-screened peptide P3759 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAGTCCGGAGCCCGTCTTTTTGGACCCCCGGTGTCCTGGTTGGCCGTACCGCATTGTGTAA NSPEPVFLDPRCPGWPYRIV* -1.398 0.011909 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25410 TPAIYADSIARSRAHHDYCS 20 SLAY-screened peptide P3760 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCCGCGATCTACGCTGATTCCATTGCGCGGAGTAGGGCGCATCATGACTATTGTTCCTAA TPAIYADSIARSRAHHDYCS* -1.398 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25411 HLVKFFHGNFAGF 13 SLAY-screened peptide P3761 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTGGTCAAGTTTTTTCACGGCAATTTCGCTGGGTTCTAGGATAGGCATTCTGACATTTAA HLVKFFHGNFAGF*DRHSDI* -1.398 0.000168 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25412 QPITYGYHEVAAPIYAKMDC 20 SLAY-screened peptide P3762 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCCATTACCTATGGGTATCATGAGGTGGCCGCTCCGATTTACGCTAAGATGGATTGTTAA QPITYGYHEVAAPIYAKMDC* -1.398 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25413 PHYSLGHSSKYTRSTIMYFL 20 SLAY-screened peptide P3763 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCACTACTCTCTCGGTCACTCGAGTAAGTACACCCGGAGTACTATTATGTATTTCCTTTAA PHYSLGHSSKYTRSTIMYFL* -1.398 0.000057 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25414 CHVPNSIIWSRGYITQYYCA 20 SLAY-screened peptide P3764 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCACGTCCCGAACTCCATCATTTGGTCCCGTGGCTATATTACCCAGTATTATTGCGCGTAA CHVPNSIIWSRGYITQYYCA* -1.398 0.030375 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25415 TGRFALPPDQPVICWFHFNH 20 SLAY-screened peptide P3765 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGGCCGGTTTGCCTTGCCCCCGGATCAGCCTGTTATCTGCTGGTTCCATTTTAACCATTAA TGRFALPPDQPVICWFHFNH* -1.398 0.023172 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25416 SITGHYSDSSVSGHKGDNSGN 21 SLAY-screened peptide P3766 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGATTACCGGCCACTACTCCGATTCGTCGGTTAGTGGTCACAAGGGCGATAACTCAGGTAAC SITGHYSDSSVSGHKGDNSGN -1.397 0.018272 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25417 LHDPSARFIPHRFLFRDAKN 20 SLAY-screened peptide P3767 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCACGATCCCAGTGCGCGCTTTATCCCGCACCGCTTTCTCTTCCGGGACGCGAAGAACTAA LHDPSARFIPHRFLFRDAKN* -1.397 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25418 PKRTCLNVVRTIMRAYFRRH 20 SLAY-screened peptide P3768 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAAGCGTACGTGTCTGAACGTGGTTCGGACGATCATGCGTGCTTATTTCAGGAGGCATTAA PKRTCLNVVRTIMRAYFRRH* -1.396 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25419 PYHPIALEVARTFVKSRPP 19 SLAY-screened peptide P3769 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATCATCCCATCGCCCTTGAGGTGGCCCGCACTTTTGTTAAGTCTCGTCCTCCGTAGTAA PYHPIALEVARTFVKSRPP** -1.396 0.000265 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25420 PRTLGPGSPFFSRLVQDYVTE 21 SLAY-screened peptide P3770 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTACCCTCGGACCCGGCTCACCGTTCTTCTCCCGACTCGTACAAGACTATGTAACTGAG PRTLGPGSPFFSRLVQDYVTE -1.396 0.000084 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25421 PVNMFMNALERLVRRYIDRD 20 SLAY-screened peptide P3771 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTCAATATGTTTATGAATGCTCTGGAGCGGCTCGTCAGGCGGTACATCGATCGCGATTAA PVNMFMNALERLVRRYIDRD* -1.395 0.015914 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25422 PFEWDPVSSITYAHVSPHDT 20 SLAY-screened peptide P3772 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTTGAGTGGGATCCCGTGTCGTCGATTACCTATGCTCACGTCTCTCCGCATGATACTTAA PFEWDPVSSITYAHVSPHDT* -1.395 0.005198 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25423 FLFSGPIGQNCFHQRNYSHV 20 SLAY-screened peptide P3773 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTTGTTCTCCGGCCCGATTGGGCAGAACTGCTTCCACCAGCGTAACTATTCCCACGTTTAA FLFSGPIGQNCFHQRNYSHV* -1.395 0.001391 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25424 GQSVNLHYLRAYIDSPYNA 19 SLAY-screened peptide P3774 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCAGAGCGTCAACTTGCACTATCTCCGTGCGTACATCGACTCCCCCTACAACGCTTAACTG GQSVNLHYLRAYIDSPYNA*L -1.395 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25425 SRYWACHDAGLIVCYFWCIR 20 SLAY-screened peptide P3775 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGTTACTGGGCCTGTCATGATGCTGGTCTTATTGTTTGCTATTTTTGGTGCATCAGGTAA SRYWACHDAGLIVCYFWCIR* -1.395 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25426 LVPSDPVPPYPYYQPLHLVY 20 SLAY-screened peptide P3776 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGTCCCCTCGGACCCGGTTCCGCCCTACCCCTATTATCAGCCTCTCCATCTCGTTTACTAA LVPSDPVPPYPYYQPLHLVY* -1.395 0.003958 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25427 PAELTRQNHGYDWNDYTFNN 20 SLAY-screened peptide P3777 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCTGAGCTCACTAGGCAGAATCACGGTTATGATTGGAATGACTATACTTTCAATAACTAA PAELTRQNHGYDWNDYTFNN* -1.395 0.00337 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25428 SALSFSYPNPSPSTRIHCFQ 20 SLAY-screened peptide P3778 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGCTTTGAGCTTTTCCTATCCTAATCCTAGCCCGTCTACGCGCATCCATTGCTTTCAGTAA SALSFSYPNPSPSTRIHCFQ* -1.395 0.026815 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25429 RPQLVFVMLHLHLLVRRYCH 20 SLAY-screened peptide P3779 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCCCAGCTGGTTTTTGTCATGTTGCATCTTCACCTCCTCGTTCGCCGTTATTGTCATTAA RPQLVFVMLHLHLLVRRYCH* -1.394 0.03863 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25430 TSKLNNRLLLLLRKLCLSLV 20 SLAY-screened peptide P3780 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCGAAGCTGAACAATCGCCTCTTGCTTCTGCTCCGTAAGCTCTGCCTGTCCCTCGTGTAA TSKLNNRLLLLLRKLCLSLV* -1.394 0.001184 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25431 PRLYCGTIDHTLLSFAWDRP 20 SLAY-screened peptide P3781 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCCTGTACTGCGGGACCATTGATCACACTCTGCTCTCTTTTGCTTGGGACAGGCCTTAA PRLYCGTIDHTLLSFAWDRP* -1.394 0.000185 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25432 PDPAKHRHTLTLYRTGGALTN 21 SLAY-screened peptide P3782 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGACCCGGCTAAGCATCGGCATACCTTGACCCTTTATCGCACCGGCGGAGCGCTTACTAAC PDPAKHRHTLTLYRTGGALTN -1.394 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25433 RSPNHHRLIPGLDNISLDTR 20 SLAY-screened peptide P3783 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTCCCCTAACCACCATCGGCTTATTCCCGGGCTTGACAATATTTCGCTCGATACTCGCTAA RSPNHHRLIPGLDNISLDTR* -1.393 0.008148 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25434 RSHTKCRRLTQDPHSSGCIE 20 SLAY-screened peptide P3784 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCCCATACCAAGTGCCGTCGTCTCACCCAGGACCCTCATTCCAGTGGGTGCATTGAGTAA RSHTKCRRLTQDPHSSGCIE* -1.393 0.00271 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25435 PRFSSPTSPKECTPCTSNHN 20 SLAY-screened peptide P3785 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGGTTTTCTTCTCCCACGTCCCCTAAGGAGTGTACCCCGTGTACTTCCAACCACAACTAA PRFSSPTSPKECTPCTSNHN* -1.393 0.004654 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25436 VPNSHYGAISSGFLITGRVM 20 SLAY-screened peptide P3786 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCCAACTCCCACTATGGTGCCATTTCCTCTGGGTTTTTGATCACGGGGAGGGTCATGTAA VPNSHYGAISSGFLITGRVM* -1.393 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25437 DSNFSDYSLNNCWLYYRLTH 20 SLAY-screened peptide P3787 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTCTAATTTCTCGGATTATAGTCTCAATAACTGCTGGCTTTATTACCGCCTCACGCACTAA DSNFSDYSLNNCWLYYRLTH* -1.392 0.027743 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25438 TTTAAPASRTCNGMILCNGTT 21 SLAY-screened peptide P3788 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACCACCGCCGCGCCCGCCTCGCGTACCTGCAACGGCATGATCTTGTGCAACGGTACCACT TTTAAPASRTCNGMILCNGTT -1.392 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25439 YHSSTSTCPRGDPIATPTTR 20 SLAY-screened peptide P3789 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCACTCCAGTACGTCTACCTGCCCCCGGGGCGATCCTATTGCTACGCCTACCACCAGGTAA YHSSTSTCPRGDPIATPTTR* -1.392 0.003568 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25440 PSTNGNTVLDHVLYIYGFGS 20 SLAY-screened peptide P3790 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCCACGAATGGCAACACCGTGCTTGACCACGTCCTTTATATTTATGGCTTTGGCTCTTAA PSTNGNTVLDHVLYIYGFGS* -1.392 0.01344 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25441 QPPPLAQAITSRSHTKVYRV 20 SLAY-screened peptide P3791 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCCCCTCCCTTGGCTCAGGCCATTACCTCGCGCTCGCACACCAAGGTTTATCGCGTTTAA QPPPLAQAITSRSHTKVYRV* -1.392 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25442 TPNHQIDVFRRYFTCVSTHG 20 SLAY-screened peptide P3792 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCGAATCATCAGATTGACGTCTTCCGTCGGTACTTCACTTGCGTTAGTACTCATGGCTAA TPNHQIDVFRRYFTCVSTHG* -1.392 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25443 SDCPDALYKCNRVKNHVAMM 20 SLAY-screened peptide P3793 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGACTGCCCTGACGCGCTGTATAAGTGTAACAGGGTCAAGAACCACGTCGCTATGATGTAA SDCPDALYKCNRVKNHVAMM* -1.391 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25444 SNPFYPLCCCRWTIGCCQSI 20 SLAY-screened peptide P3794 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTAATCCGTTCTACCCTCTTTGTTGTTGCCGCTGGACTATCGGTTGTTGTCAGAGTATTTAA SNPFYPLCCCRWTIGCCQSI* -1.391 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25445 NGSFLQQWLPLSLFIC 16 SLAY-screened peptide P3795 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGGGTCCTTCCTCCAGCAGTGGCTTCCTTTGAGCCTTTTTATTTGTTAGCGCTTCACTTAA NGSFLQQWLPLSLFIC*RFT* -1.391 0.029315 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25446 MLAILFTLNARRPFHAPVVI 20 SLAY-screened peptide P3796 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCTTGCCATCCTGTTTACCCTTAATGCGCGCCGCCCGTTTCACGCCCCCGTGGTCATTTAA MLAILFTLNARRPFHAPVVI* -1.39 0.000875 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25447 GTQTYTICSFHPHDSNILVI 20 SLAY-screened peptide P3797 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTACGCAGACCTATACGATTTGTTCTTTCCACCCCCATGACTCGAACATCCTGGTCATTTAA GTQTYTICSFHPHDSNILVI* -1.39 0.000513 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25448 PMPASCLYT 9 SLAY-screened peptide P3798 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATGCCTGCCTCTTGCCTCTATACTTAGGAGTCCAAGGATATGAACGCGGCTCTGTTCTAA PMPASCLYT*ESKDMNAALF* -1.39 0.048958 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25449 SHKDYNSCNFFKDTVVNYFN 20 SLAY-screened peptide P3799 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCATAAGGACTATAACTCTTGTAATTTCTTTAAGGACACGGTGGTCAATTATTTTAATTAA SHKDYNSCNFFKDTVVNYFN* -1.39 0.001045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25450 RSQYGRFVRHLGKPSIAHVT 20 SLAY-screened peptide P3800 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAGCCAGTACGGTCGTTTTGTCCGCCACCTTGGCAAGCCCTCGATCGCTCATGTTACTTAA RSQYGRFVRHLGKPSIAHVT* -1.39 0.048522 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25451 NIVTDPSFSCPYFTSLN 17 SLAY-screened peptide P3801 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACATTGTCACGGACCCGAGCTTTTCCTGTCCGTACTTTACTTCCCTGAATTAGCCGGCCTAA NIVTDPSFSCPYFTSLN*PA* -1.39 0.001562 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25452 AFTSPHVICYRSVTLTMRPTN 21 SLAY-screened peptide P3802 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTTCACCAGCCCGCACGTCATCTGCTACCGTAGTGTTACCCTGACCATGAGACCCACTAAC AFTSPHVICYRSVTLTMRPTN -1.39 0.000043 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25453 TASPHGPTA 9 SLAY-screened peptide P3803 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCTAGCCCGCACGGCCCTACGGCCTAGCATTTTCTCATCGTGTTTGATCACACCAACTAA TASPHGPTA*HFLIVFDHTN* -1.389 0.000085 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25454 SLAQP 5 SLAY-screened peptide P3804 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTTGGCGCAGCCGTAGCCTAATATCCTGCACTTTAGTCATACTTACGGTACCGTCAGCTAA SLAQP*PNILHFSHTYGTVS* -1.388 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25455 YSRISPRRNTCSFYSSLTST 20 SLAY-screened peptide P3805 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTCCCGTATTTCCCCGCGTCGCAATACGTGCAGCTTTTACTCTTCCCTTACTTCTACTTAA YSRISPRRNTCSFYSSLTST* -1.388 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25456 ANNDACPTPLYFGPPPSFYL 20 SLAY-screened peptide P3806 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAACAATGACGCGTGCCCTACTCCCCTCTATTTTGGTCCTCCTCCTTCCTTCTACCTCTAA ANNDACPTPLYFGPPPSFYL* -1.388 0.024065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25457 THVVHWYGYY 10 SLAY-screened peptide P3807 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCACGTTGTTCATTGGTATGGTTATTATTAGGCTGCTCAGTATTCCAGCTTTTGGGCTTAA THVVHWYGYY*AAQYSSFWA* -1.388 0.015255 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25458 CMSKKRNTFDTGYMIPQSII 20 SLAY-screened peptide P3808 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTATGTCTAAGAAGCGTAACACCTTTGACACTGGCTACATGATCCCTCAGAGTATTATTTAA CMSKKRNTFDTGYMIPQSII* -1.387 0.035789 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25459 YFRKLYQRRNNRWSNLFFN 19 SLAY-screened peptide P3809 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGGTACTTCAGGAAGCTTTATCAGCGCCGCAACAATCGGTGGTCCAATCTTTTTTTCAACTAACTG YFRKLYQRRNNRWSNLFFN*L -1.387 0.031918 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25460 APWGNATL 8 SLAY-screened peptide P3810 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCCTGGGGGAATGCCACCCTTTAGACTACCAGGCCCCTGTCTGATTACGCGTAGCGTTAA APWGNATL*TTRPLSDYA*R* -1.387 0.000047 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25461 DGIVSVTPKGDNLRLAAGPP 20 SLAY-screened peptide P3811 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGGCATCGTTTCGGTGACGCCCAAGGGTGATAATCTCAGGTTGGCCGCCGGCCCGCCTTAA DGIVSVTPKGDNLRLAAGPP* -1.387 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25462 LVIEPLMIWRL 11 SLAY-screened peptide P3812 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTCATCGAGCCTCTGATGATCTGGCGTCTTTAGATTACGTTCCTGCCTTGTATTATCTAA LVIEPLMIWRL*ITFLPCII* -1.387 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25463 DVLTILLFRCCIVLRVSLSFN 21 SLAY-screened peptide P3813 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGTTCTTACAATACTATTATTTAGGTGCTGCATAGTACTAAGGGTCTCATTGTCTTTTAAC DVLTILLFRCCIVLRVSLSFN -1.387 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25464 HSCSEPIFCSNASALGICPLN 21 SLAY-screened peptide P3814 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAGCTGTTCCGAGCCGATCTTTTGTTCTAATGCATCTGCCCTAGGCATATGTCCTCTTAAC HSCSEPIFCSNASALGICPLN -1.386 0.000177 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25465 EASLGRLHSVAAQA 14 SLAY-screened peptide P3815 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGCCAGTCTCGGTCGTTTGCACAGCGTCGCTGCTCAGGCCTAGCACCCCACTCCGTTGTAA EASLGRLHSVAAQA*HPTPL* -1.386 0.004529 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25466 IRLFHNARSRPRSWNNYLQM 20 SLAY-screened peptide P3816 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCGGCTTTTTCATAACGCTCGTAGCCGCCCCCGGAGTTGGAATAATTACCTCCAGATGTAA IRLFHNARSRPRSWNNYLQM* -1.386 0.007758 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25467 RRLPSGPPPVQSVYSHAV 18 SLAY-screened peptide P3817 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGTCTCCCTTCCGGGCCCCCTCCAGTTCAGTCCGTTTATTCCCATGCTGTGTAGGTAACT RRLPSGPPPVQSVYSHAV*VT -1.386 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25468 SRTPTSARRQLKNMNKEHLF 20 SLAY-screened peptide P3818 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGCACGCCGACCTCTGCCCGGCGTCAGCTGAAGAATATGAATAAGGAGCACCTCTTCTAA SRTPTSARRQLKNMNKEHLF* -1.385 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25469 PRNNTAPRVSMLSILLTVTAN 21 SLAY-screened peptide P3819 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGGAACAATACAGCCCCTCGTGTTTCTATGTTGTCCATCCTTCTTACGGTAACCGCTAAC PRNNTAPRVSMLSILLTVTAN -1.385 0.017891 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25470 CVLQHAFYTL 10 SLAY-screened peptide P3820 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTGTTGCAGCACGCCTTTTATACTCTCTAGTTCCTTACTCCTATTAGTTTTCATAATTAA CVLQHAFYTL*FLTPISFHN* -1.385 0.000655 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25471 TFVCRVPCRITPSLVCRIFSN 21 SLAY-screened peptide P3821 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTTCGTATGTAGGGTGCCCTGTCGTATTACTCCAAGCCTTGTATGCCGAATATTTTCTAAC TFVCRVPCRITPSLVCRIFSN -1.385 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25472 CPFGYPFNRCRACTLPFMAV 20 SLAY-screened peptide P3822 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCTTTCGGTTACCCGTTTAATCGGTGCCGTGCGTGCACTTTGCCTTTCATGGCCGTCTAA CPFGYPFNRCRACTLPFMAV* -1.385 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25473 HT 2 SLAY-screened peptide P3823 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACGTAGTCCATCTATTATTCTTATTCCCACCCCCGTGATTCTGTGGGGCGGCCCCACTAA HT*SIYYSYSHPRDSVGRPH* -1.384 0.04543 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25474 DRRNGLYGPCTSPLLMFGYT 20 SLAY-screened peptide P3824 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATAGGCGCAATGGCCTTTACGGTCCCTGCACGTCCCCCCTCCTGATGTTCGGCTATACCTAA DRRNGLYGPCTSPLLMFGYT* -1.384 0.043313 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25475 QIVPRAAILHYLTFRTHPSR 20 SLAY-screened peptide P3825 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGATCGTCCCTCGGGCCGCTATCCTTCATTACCTGACTTTCCGTACCCACCCTAGTAGGTAA QIVPRAAILHYLTFRTHPSR* -1.384 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25476 ESCSLYDYLAFLLM 14 SLAY-screened peptide P3826 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAGTTGTTCCTTGTATGACTATCTGGCCTTCCTTCTTATGTAGATTATGTATTTTGCCTAA ESCSLYDYLAFLLM*IMYFA* -1.384 0.045951 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25477 CPLSSMNASYPTYSIFTI 18 SLAY-screened peptide P3827 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCTCTCTCGTCTATGAATGCTAGTTACCCCACTTATTCCATTTTTACGATCTAGGTCTAA CPLSSMNASYPTYSIFTI*V* -1.384 0.000667 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25478 PWCSKYCWSCPLYNLGFSP 19 SLAY-screened peptide P3828 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGGTGTTCTAAGTACTGCTGGTCGTGCCCCCTTTATAACTTGGGGTTTAGCCCGTAACTG PWCSKYCWSCPLYNLGFSP*L -1.384 0.000091 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25479 PRPLVCALSVSQMYQRRHSS 20 SLAY-screened peptide P3829 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGGCCTCTGGTCTGTGCGCTCTCCGTCTCTCAGATGTACCAGCGCCGCCATTCCTCTTAA PRPLVCALSVSQMYQRRHSS* -1.384 0.000825 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25480 PMFLLHPCPYFPISKDMQFW 20 SLAY-screened peptide P3830 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATGTTCCTGTTGCACCCGTGTCCCTACTTTCCCATTTCCAAGGACATGCAGTTCTGGTAA PMFLLHPCPYFPISKDMQFW* -1.383 0.003337 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25481 DDLTGTGRLFHCHI 14 SLAY-screened peptide P3831 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGACCTGACCGGCACGGGTCGCCTTTTCCATTGTCACATCTAGGTGTAACTGAGTAAGTCG DDLTGTGRLFHCHI*V*LSKS -1.383 0.026413 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25482 HDSTLCSHGPYYLHYVSSFL 20 SLAY-screened peptide P3832 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGACAGCACTCTGTGCAGTCATGGGCCGTACTACCTCCATTACGTTTCCTCTTTCTTGTAA HDSTLCSHGPYYLHYVSSFL* -1.383 0.002964 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25483 IGQHSPHPICPRDTSD 16 SLAY-screened peptide P3833 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGGTCAGCATTCCCCTCATCCCATTTGTCCGAGGGATACGTCCGATTAGTGTGGCGATTAA IGQHSPHPICPRDTSD*CGD* -1.383 0.009158 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25484 NAIGRATNTSVPRGSNPQNS 20 SLAY-screened peptide P3834 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGCTATTGGCCGGGCGACTAATACTTCTGTCCCTCGGGGCTCTAATCCCCAGAACAGCTAA NAIGRATNTSVPRGSNPQNS* -1.383 0.00008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25485 ILLMYLITSVTRNLD 15 SLAY-screened peptide P3835 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTCTTGATGTACCTGATTACTAGTGTTACGAGGAACCTCGATTAGGCCTGCACTCTTTAA ILLMYLITSVTRNLD*ACTL* -1.382 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25486 CYHLWSEIPLIYSSLNVIDL 20 SLAY-screened peptide P3836 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTACCACCTTTGGTCCGAGATTCCCCTTATCTATAGTTCTTTGAACGTTATCGACCTCTAA CYHLWSEIPLIYSSLNVIDL* -1.382 0.000383 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25487 RCSPITSLARSPIKPGLSFI 20 SLAY-screened peptide P3837 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTGCAGCCCGATCACCTCTCTTGCTCGGTCCCCCATTAAGCCTGGGTTGTCGTTCATTTAA RCSPITSLARSPIKPGLSFI* -1.382 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25488 TCFDYVPLFLDAMRLPNLLL 20 SLAY-screened peptide P3838 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTGCTTCGACTATGTTCCCCTTTTCCTTGATGCCATGCGCCTCCCTAACCTGCTCCTGTAA TCFDYVPLFLDAMRLPNLLL* -1.381 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25489 PHYNCMHIDVV 11 SLAY-screened peptide P3839 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCATTACAACTGCATGCATATTGACGTCGTGTAGTCCAAGAAGGTCTCTCTCGTTGACTAA PHYNCMHIDVV*SKKVSLVD* -1.381 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25490 EFTENKSLKPTGRHYIQQLYN 21 SLAY-screened peptide P3840 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGTTCACCGAGAACAAGAGCCTCAAGCCGACTGGTCGTCATTATATTCAGCAGCTTTATAAC EFTENKSLKPTGRHYIQQLYN -1.381 0.002323 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25491 KHYYPFRASILSMLRRLCSK 20 SLAY-screened peptide P3841 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCATTACTACCCCTTTCGGGCCTCGATTCTCAGTATGCTCCGCCGGCTTTGCTCTAAGTAA KHYYPFRASILSMLRRLCSK* -1.381 0.000108 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25492 CAIMTDKVGHGSTITASSHA 20 SLAY-screened peptide P3842 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCCATTATGACGGACAAGGTTGGTCACGGTAGTACTATCACGGCGAGTTCCCATGCCTAA CAIMTDKVGHGSTITASSHA* -1.381 0.000699 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25493 RPCARPATDFRDRLVSTDAP 20 SLAY-screened peptide P3843 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCCTGCGCCCGTCCTGCGACGGATTTCCGTGATCGCCTTGTTAGTACCGACGCCCCCTAA RPCARPATDFRDRLVSTDAP* -1.38 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25494 TGVDPCFKHTRYCYSILEIA 20 SLAY-screened peptide P3844 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGGTGTCGATCCTTGTTTTAAGCATACTAGGTACTGCTATTCTATTCTTGAGATTGCGTAA TGVDPCFKHTRYCYSILEIA* -1.38 0.043425 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25495 LFHHSYSSTHDVLIAHHVPR 20 SLAY-screened peptide P3845 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTTCCATCACTCGTACAGTAGCACGCACGATGTTTTGATCGCGCACCATGTTCCCAGGTAA LFHHSYSSTHDVLIAHHVPR* -1.38 0.000231 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25496 GLNSRYSTCQ 10 SLAY-screened peptide P3846 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCTCAATAGTCGCTACTCTACGTGTCAGTAGCACTGGCCTCTTATGCATGAGTGTACGTAA GLNSRYSTCQ*HWPLMHECT* -1.379 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25497 VDWRCLNHFFRYEDSPFTVT 20 SLAY-screened peptide P3847 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGGACTGGAGGTGCCTTAATCATTTTTTCCGGTACGAGGATTCTCCTTTCACTGTTACTTAA VDWRCLNHFFRYEDSPFTVT* -1.379 0.02407 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25498 ISSDYLLRPGLSWDTSSYCVN 21 SLAY-screened peptide P3848 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAGCTCCGATTATCTCTTGCGCCCCGGCTTGTCCTGGGACACCTCGAGCTACTGTGTTAAC ISSDYLLRPGLSWDTSSYCVN -1.379 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25499 CSRIGCPNHLNSRTC 15 SLAY-screened peptide P3849 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTCTAGGATTGGGTGTCCCAACCACCTCAATTCTCGGACTTGTTAGAGTCACTGTAGTTAA CSRIGCPNHLNSRTC*SHCS* -1.379 0.000177 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25500 DRPHLYHSCRPSPNPMLMHA 20 SLAY-screened peptide P3850 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCGTCCTCACCTGTACCATTCTTGCCGTCCCTCGCCTAATCCGATGCTTATGCACGCTTAA DRPHLYHSCRPSPNPMLMHA* -1.379 0.002388 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25501 RKLRLYHPVGVTR 13 SLAY-screened peptide P3851 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAAGTTGAGGCTTTACCATCCCGTTGGCGTGACCCGCTAGACGGACCTCAAGACTATTTAA RKLRLYHPVGVTR*TDLKTI* -1.379 0.016676 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25502 PHRIRRAITATRRILRWARRN 21 SLAY-predicted active peptide P3852 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCACCGCATCCGGCGGGCTATAACTGCGACTCGGCGTATATTACGGTGGGCTCGACGTAAC PHRIRRAITATRRILRWARRN -1.379 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25503 GPDSNLSQDNSYYSVCYVLA 20 SLAY-predicted active peptide P3853 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCCTGACTCGAACCTCTCGCAGGACAATAGCTACTATTCTGTTTGCTATGTGCTGGCTTAA GPDSNLSQDNSYYSVCYVLA* -1.378 0.000222 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25504 SFWVPANGSPRNHHSGRSPH 20 SLAY-predicted active peptide P3854 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTTTTGGGTGCCCGCTAATGGTAGTCCTCGCAACCATCACTCTGGTCGTTCCCCGCATTAA SFWVPANGSPRNHHSGRSPH* -1.378 0.001094 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25505 NQARLASIPSNSYTKRLDEI 20 SLAY-predicted active peptide P3855 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCAGGCTCGTCTGGCCTCTATCCCTTCCAATAGCTACACTAAGAGGCTCGATGAGATTTAA NQARLASIPSNSYTKRLDEI* -1.378 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25506 VSCDHNKYNT 10 SLAY-screened peptide P3856 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGAGCTGTGATCATAATAAGTACAATACTTAGACGCAGGCTGAGGCCATGACCCTTTCTTAA VSCDHNKYNT*TQAEAMTLS* -1.378 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25507 LAADTCDWYV 10 SLAY-screened peptide P3857 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGCTGCTGACACTTGTGATTGGTATGTGTAGACCATGCAGGTTTCTTTCTCTGCCCCTTAA LAADTCDWYV*TMQVSFSAP* -1.378 0.008624 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25508 SFRAVSCLNPHNCEFLCYFI 20 SLAY-screened peptide P3858 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTTTCGCGCCGTTAGTTGTCTCAACCCCCATAACTGCGAGTTTTTGTGCTATTTTATCTAA SFRAVSCLNPHNCEFLCYFI* -1.378 0.007492 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25509 LEVLWYLHSIAIYLCSGSKS 20 SLAY-screened peptide P3859 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGAGGTTCTCTGGTATCTCCACTCTATTGCCATCTATCTCTGCTCGGGTTCTAAGAGCTAA LEVLWYLHSIAIYLCSGSKS* -1.378 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25510 PH 2 SLAY-screened peptide P3860 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCACTAGCGCATCATCGACAGCCTGCTGCCCAGTAACCGCACGTCTAACACGCGCACTTAA PH*RIIDSLLPSNRTSNTRT* -1.378 0.001318 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25511 PRFNLINLITHAFRCLSLKY 20 SLAY-screened peptide P3861 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGGTTCAATTTGATCAACCTCATCACGCACGCTTTTCGGTGCCTCTCCCTGAAGTATTAA PRFNLINLITHAFRCLSLKY* -1.378 0.014063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25512 NFGHSTNKLYNDPNCTIVVR 20 SLAY-screened peptide P3862 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTTTGGTCATTCTACCAATAAGTTGTACAACGACCCCAATTGCACTATCGTGGTTAGGTAA NFGHSTNKLYNDPNCTIVVR* -1.377 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25513 SVGPHRSSGTFFILISFGPP 20 SLAY-screened peptide P3863 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGTCGGCCCTCACCGCTCCTCGGGCACCTTTTTTATCTTGATCTCGTTTGGCCCTCCTTAA SVGPHRSSGTFFILISFGPP* -1.377 0.046086 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25514 RTPYPQNIWGPFTSEDPTLV 20 SLAY-screened peptide P3864 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGACGCCCTACCCCCAGAACATCTGGGGCCCCTTCACCAGCGAGGACCCTACCTTGGTTTAA RTPYPQNIWGPFTSEDPTLV* -1.377 0.024348 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25515 VIPPTRHHGCNPTPPWLMLT 20 SLAY-screened peptide P3865 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTATCCCGCCGACCAGGCACCACGGCTGCAACCCTACGCCCCCCTGGCTCATGCTGACTTAA VIPPTRHHGCNPTPPWLMLT* -1.376 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25516 GPDNIRAFGSDYSNPISSNT 20 SLAY-screened peptide P3866 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCCTGACAATATCCGCGCTTTTGGCAGTGATTACAGCAATCCTATTTCCAGCAACACCTAA GPDNIRAFGSDYSNPISSNT* -1.376 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25517 CHPPAPRHARSALLALPL 18 SLAY-screened peptide P3867 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCATCCCCCAGCTCCACGCCACGCCCGTTCCGCTTTATTGGCTCTACCACTCTGAGCTCTA CHPPAPRHARSALLALPL*AL -1.376 0.001816 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25518 HPPTALILTLIGAITRSSN 19 SLAY-screened peptide P3868 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGCCCACTGCACTTATACTTACTTTAATTGGGGCTATAACTAGATCCTCTAACTGAGTA HPPTALILTLIGAITRSSN*V -1.376 0.002117 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25519 RAMSPYYLNPLLSPCVHFLT 20 SLAY-screened peptide P3869 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCTATGTCTCCCTACTACCTGAACCCTCTGCTGAGCCCCTGCGTGCATTTCCTCACCTAA RAMSPYYLNPLLSPCVHFLT* -1.376 0.012069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25520 PLQPFYVYLNRML 13 SLAY-screened peptide P3870 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTCAGCCCTTCTACGTTTATCTTAATCGTATGCTGTAGCCGCGGTATACGAGGAACTAA PLQPFYVYLNRML*PRYTRN* -1.376 0.000083 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25521 TASRLTKITTRRSSSSSALLN 21 SLAY-screened peptide P3871 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCCTCCCGCCTCACTAAGATTACTACTAGACGATCTTCTTCTTCATCGGCATTACTTAAC TASRLTKITTRRSSSSSALLN -1.376 0.000848 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25522 HLRNCFDGLLITRYAHSVLG 20 SLAY-screened peptide P3872 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTTCGCAACTGCTTTGATGGCCTGCTCATTACTCGGTACGCTCATAGCGTGTTGGGTTAA HLRNCFDGLLITRYAHSVLG* -1.376 0.000736 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25523 SIYVFISLYHVWRLRTLNRTN 21 SLAY-screened peptide P3873 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTATTTACGTCTTTATTAGCCTGTACCACGTTTGGCGGTTGCGCACTCTTAATAGGACTAAC SIYVFISLYHVWRLRTLNRTN -1.376 0.003082 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25524 HPPHHSWDFNPFRGCYDALS 20 SLAY-screened peptide P3874 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGCCCCATCACAGCTGGGACTTTAACCCTTTTCGGGGCTGCTACGATGCGCTTAGCTAA HPPHHSWDFNPFRGCYDALS* -1.375 0.000749 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25525 QTWTEGLGHNRGGLIQTHPR 20 SLAY-screened peptide P3875 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGACCTGGACCGAGGGGCTCGGCCACAACAGGGGTGGGCTTATTCAGACTCATCCTCGCTAA QTWTEGLGHNRGGLIQTHPR* -1.375 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25526 GHVLSHSNGVDMLERTTTEE 20 SLAY-screened peptide P3876 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCATGTTCTCAGTCATTCCAATGGTGTCGACATGCTGGAGAGGACTACTACTGAGGAGTAA GHVLSHSNGVDMLERTTTEE* -1.375 0.003897 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25527 CS 2 SLAY-screened peptide P3877 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTCCTAGGCCTGGCTCAGTGAGCATCACCCCGGCTAGTAGCTTTCTAATATTTCCTGTTAA CS*AWLSEHHPG**LSNISC* -1.375 0.015532 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25528 HRPAFRCWTY 10 SLAY-screened peptide P3878 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGGCCGGCTTTTCGTTGTTGGACCTACTAGTAGCGCGGGCCCCCGTAGCCTACCGTCTAA HRPAFRCWTY**RGPP*PTV* -1.375 0.021618 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25529 ASRTHLHATTPCLDTGIAHR 20 SLAY-screened peptide P3879 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTCGCGGACCCACCTCCATGCCACGACGCCCTGCCTGGATACTGGTATCGCTCACCGGTAA ASRTHLHATTPCLDTGIAHR* -1.375 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25530 HTRCCGDPSSPKHLARPMRD 20 SLAY-screened peptide P3880 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACTCGCTGCTGCGGCGACCCCTCGTCCCCTAAGCACTTGGCTAGGCCCATGAGGGATTAA HTRCCGDPSSPKHLARPMRD* -1.374 0.006122 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25531 LTIHESSCKSVRFFPYNDIY 20 SLAY-screened peptide P3881 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGACCATTCATGAGAGCTCGTGTAAGTCGGTTCGTTTTTTTCCGTATAATGATATTTATTAA LTIHESSCKSVRFFPYNDIY* -1.374 0.00434 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25532 CLYYPLFLSTTLSPSLTF 18 SLAY-screened peptide P3882 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTTTATTATCCCTTGTTCTTGAGTACTACTTTGTCGCCCTCTCTTACTTTTTAGACCTAA CLYYPLFLSTTLSPSLTF*T* -1.374 0.008765 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25533 TTFALPFMARSLSSHKRLIA 20 SLAY-screened peptide P3883 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACTTTTGCCCTCCCCTTTATGGCGCGCTCTCTCAGCAGTCATAAGCGGCTTATTGCCTAA TTFALPFMARSLSSHKRLIA* -1.374 0.001539 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25534 LPIREYDFWPVTPLYAYSPP 20 SLAY-screened peptide P3884 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCTATTCGCGAGTATGACTTTTGGCCCGTGACTCCCCTTTATGCGTATAGTCCGCCTTAA LPIREYDFWPVTPLYAYSPP* -1.374 0.000087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25535 LGYYGRNVTALELPRILPQAA 21 SLAY-screened peptide P3885 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGGTTACTACGGTCGCAACGTCACTGCCCTCGAGCTCCCGCGTATCCTCCCGCAGGCCGCC LGYYGRNVTALELPRILPQAA -1.374 0.012225 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25536 PH 2 SLAY-screened peptide P3886 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCATTAGACCTATGATATGAATATTCTCCCGCACGCGGCCGGTTGCGTCCTCATGGCCTAA PH*TYDMNILPHAAGCVLMA* -1.373 0.008456 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25537 TRSHYKSCALDSPFYHHMHW 20 SLAY-screened peptide P3887 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCGCTCGCATTATAAGTCGTGCGCGCTGGACTCCCCGTTTTATCACCATATGCACTGGTAA TRSHYKSCALDSPFYHHMHW* -1.373 0.000184 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25538 DPDPCII 7 SLAY-screened peptide P3888 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCCGACCCCTGTATTATTTAGAATCGGCGTCTTTACCATTAGGGTAACGTTTTCCGGTAA DPDPCII*NRRLYH*GNVFR* -1.373 0.005154 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25539 LTHLSVSPNRISARCTCLTC 20 SLAY-screened peptide P3889 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCACCCATCTCTCGGTGTCCCCCAATCGCATTTCCGCGCGGTGCACGTGTCTTACTTGCTAA LTHLSVSPNRISARCTCLTC* -1.373 0.01119 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25540 TIMAHLRQPISRGPPEYFVG 20 SLAY-screened peptide P3890 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTATCATGGCCCACCTCCGCCAGCCTATCAGTCGTGGTCCCCCTGAGTATTTTGTTGGCTAA TIMAHLRQPISRGPPEYFVG* -1.373 0.048438 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25541 AGHHSGPLTAIRSNITTCKR 20 SLAY-screened peptide P3891 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGGCCATCATTCCGGTCCCCTTACGGCGATTCGCTCGAACATTACTACCTGTAAGCGTTAA AGHHSGPLTAIRSNITTCKR* -1.372 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25542 LVDNYRSSIDTEFCNPRDPS 20 SLAY-screened peptide P3892 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTTGACAACTACCGTAGCAGTATCGACACTGAGTTTTGTAACCCTCGCGATCCCAGTTAA LVDNYRSSIDTEFCNPRDPS* -1.372 0.000849 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25543 RVAGPDADSINKLDNHDLNN 20 SLAY-screened peptide P3893 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGTTGCGGGCCCTGACGCCGATAGCATTAACAAGCTTGATAATCATGACCTTAACAATTAA RVAGPDADSINKLDNHDLNN* -1.372 0.042403 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25544 LINLSAPSHSDSSEHIPNNQ 20 SLAY-screened peptide P3894 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATTAATCTCTCTGCCCCCTCCCACTCTGACAGTTCTGAGCATATTCCTAACAATCAGTAA LINLSAPSHSDSSEHIPNNQ* -1.372 0.000327 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25545 LHYGSFCDLYHFFKYINGSV 20 SLAY-screened peptide P3895 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCATTACGGCTCTTTTTGTGATCTCTATCACTTTTTTAAGTATATCAATGGCTCCGTTTAA LHYGSFCDLYHFFKYINGSV* -1.372 0.000415 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25546 DLQNVPTNLKVYYRVHQLRC 20 SLAY-screened peptide P3896 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCTCCAGAACGTTCCTACTAACCTCAAGGTTTATTATAGGGTGCACCAGCTTAGGTGCTAA DLQNVPTNLKVYYRVHQLRC* -1.371 0.007733 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25547 NSVYDMFPYITVRRSW 16 SLAY-screened peptide P3897 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCCGTCTACGATATGTTTCCGTACATTACGGTTCGCAGGTCCTGGTAGGTCATTTACTAA NSVYDMFPYITVRRSW*VIY* -1.371 0.005656 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25548 MKLFSRGRLPANYATFFSRN 20 SLAY-screened peptide P3898 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGAAGCTTTTCTCGAGGGGCCGCTTGCCCGCGAACTACGCTACGTTCTTCTCTCGTAATTAA MKLFSRGRLPANYATFFSRN* -1.371 0.036574 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25549 SNTSNPFYSALFDLNPRLYS 20 SLAY-screened peptide P3899 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAATACTTCTAATCCTTTCTATAGTGCGCTTTTTGATCTTAACCCGCGGCTGTATTCTTAA SNTSNPFYSALFDLNPRLYS* -1.371 0.000074 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25550 LVLVYRGFLLVFVLMAGTTPN 21 SLAY-screened peptide P3900 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGTGCTTGTGTATCGTGGTTTTTTACTCGTTTTCGTTCTCATGGCTGGTACTACACCTAAC LVLVYRGFLLVFVLMAGTTPN -1.371 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25551 LTPPYTSDEEFLTNTHSHQN 20 SLAY-screened peptide P3901 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGACCCCGCCGTATACGTCTGACGAGGAGTTTCTGACGAACACTCATAGTCATCAGAATTAA LTPPYTSDEEFLTNTHSHQN* -1.371 0.005418 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25552 FCVPSIHFSGSILRPNRVFY 20 SLAY-screened peptide P3902 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTGTGTTCCGAGTATTCATTTCTCCGGTAGTATCCTTCGTCCGAACCGCGTTTTCTATTAA FCVPSIHFSGSILRPNRVFY* -1.371 0.022385 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25553 PLTLSVTLLNKFMSGFALSW 20 SLAY-screened peptide P3903 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTGACTCTTAGTGTCACCCTGCTTAATAAGTTCATGTCTGGGTTCGCGCTGAGTTGGTAA PLTLSVTLLNKFMSGFALSW* -1.371 0.004689 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25554 TNPDAYDLASGNQFQSQFMI 20 SLAY-screened peptide P3904 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAACCCCGATGCTTACGACCTGGCTTCTGGCAACCAGTTTCAGAGCCAGTTCATGATCTAA TNPDAYDLASGNQFQSQFMI* -1.37 0.003656 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25555 YGSTFRTFASFRLHNVQHYT 20 SLAY-screened peptide P3905 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGGTTCCACTTTTAGGACTTTTGCTTCCTTTAGGCTGCATAATGTTCAGCACTACACCTAA YGSTFRTFASFRLHNVQHYT* -1.37 0.005105 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25556 CLM 3 SLAY-screened peptide P3906 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCATGTAGGCGCTTGGCGCCGATGCCACCAGTAATGCGCATTACCGTACGAAGTTGTAA CLM*ALGADATSNAHYRTKL* -1.37 0.003416 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25557 CRNRLFPFYEL 11 SLAY-screened peptide P3907 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCGCAACCGTCTCTTCCCTTTTTATGAGCTTTAGCCTAACAATAATTCCCGCTGTTCCTAA CRNRLFPFYEL*PNNNSRCS* -1.37 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25558 RMSSRILNCTPWRATKMMAI 20 SLAY-screened peptide P3908 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATGTCGTCTCGTATCTTGAATTGTACGCCCTGGCGTGCCACTAAGATGATGGCGATCTAA RMSSRILNCTPWRATKMMAI* -1.37 0.00079 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25559 SPLRFISFRHYIARGPPFIH 20 SLAY-screened peptide P3909 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCCCCTCAGGTTCATTTCTTTTCGTCACTATATTGCTCGCGGGCCTCCTTTTATCCATTAA SPLRFISFRHYIARGPPFIH* -1.369 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25560 HYAAVLLFCRPLPDLRRSNG 20 SLAY-screened peptide P3910 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTATGCCGCTGTGCTGCTCTTTTGTCGCCCCCTTCCTGATCTTAGGCGGTCTAATGGTTAA HYAAVLLFCRPLPDLRRSNG* -1.369 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25561 HSSFNLLPPCHYVALPLLYA 20 SLAY-screened peptide P3911 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAGTTCCTTTAACCTGCTCCCTCCGTGCCATTACGTGGCGCTTCCTCTGCTTTATGCGTAA HSSFNLLPPCHYVALPLLYA* -1.369 0.003404 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25562 YPVIILTPAPLPLPTSRRVFN 21 SLAY-screened peptide P3912 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCTGTGATCATTCTCACTCCTGCGCCACTCCCATTACCGACCTCCAGGAGAGTGTTTAAC YPVIILTPAPLPLPTSRRVFN -1.369 0.00069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25563 HDMSSHCYLIDHRYSTDHTA 20 SLAY-screened peptide P3913 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGATATGAGTAGCCATTGCTACTTGATTGATCACCGTTACTCTACCGATCATACTGCGTAA HDMSSHCYLIDHRYSTDHTA* -1.368 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25564 ADVPEPCVTMSNGNPVARMR 20 SLAY-screened peptide P3914 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGACGTCCCTGAGCCCTGCGTCACGATGTCTAATGGCAATCCCGTTGCGCGTATGCGGTAA ADVPEPCVTMSNGNPVARMR* -1.368 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25565 TTDVTSHPFVDKSVHLHVET 20 SLAY-screened peptide P3915 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACCGATGTGACTTCCCATCCGTTTGTCGATAAGTCTGTGCACCTCCACGTGGAGACGTAA TTDVTSHPFVDKSVHLHVET* -1.368 0.024208 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25566 PCWFSGSPLDPVYTHLASAS 20 SLAY-screened peptide P3916 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTTGGTTCTCGGGTTCGCCGCTCGATCCGGTTTACACCCATCTTGCTTCTGCCTCGTAA PCWFSGSPLDPVYTHLASAS* -1.368 0.001948 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25567 NHPHTLVPK 9 SLAY-screened peptide P3917 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCACCCGCACACGTTGGTCCCCAAGTAGAACGTCCCCTGCGGTTGCGCTACCTACTCCTAA NHPHTLVPK*NVPCGCATYS* -1.368 0.000024 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25568 NHFMCSGFSYFPWYLIR 17 SLAY-screened peptide P3918 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCACTTTATGTGTTCGGGCTTTTCGTATTTCCCCTGGTACCTCATCCGCTAGCCCATGTAA NHFMCSGFSYFPWYLIR*PM* -1.367 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25569 THIAFSKAYMPATIERPRIC 20 SLAY-screened peptide P3919 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCACATTGCCTTCTCCAAGGCCTACATGCCTGCCACCATTGAGCGTCCTCGGATTTGCTAA THIAFSKAYMPATIERPRIC* -1.366 0.047232 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25570 SMWGNKLLTSRRHMQTQLSH 20 SLAY-screened peptide P3920 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGATGTGGGGTAATAAGCTCTTGACGTCGAGGAGGCATATGCAGACCCAGCTCTCTCATTAA SMWGNKLLTSRRHMQTQLSH* -1.366 0.001596 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25571 DLYT 4 SLAY-screened peptide P3921 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCTCTACACCTAGTACCGCCTTACGCAGTGCGGTATTCATCTCTCCCTGCCTAATTACTAA DLYT*YRLTQCGIHLSLPNY* -1.365 0.002583 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25572 LSNVFSSLVSN 11 SLAY-screened peptide P3922 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCCAATGTTTTCAGCTCCCTTGTGAGTAACTAGAGTTGGCCGCACAACAATAGCCACTAA LSNVFSSLVSN*SWPHNNSH* -1.365 0.006514 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25573 PMRSCTFDYNRHYMRSAYSR 20 SLAY-screened peptide P3923 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATGCGCAGTTGCACCTTTGACTATAATCGCCATTACATGCGTAGCGCTTATTCTAGGTAA PMRSCTFDYNRHYMRSAYSR* -1.365 0.012102 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25574 WTGRLVPTTTSGIDATNHRV 20 SLAY-screened peptide P3924 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGACCGGGAGGCTGGTGCCCACTACGACCTCTGGTATTGATGCTACTAACCATCGCGTTTAA WTGRLVPTTTSGIDATNHRV* -1.364 0.022484 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25575 DVCLDCNNIFIHFLIDHCV 19 SLAY-screened peptide P3925 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGTTTGTCTGGACTGCAACAATATTTTTATCCATTTTTTGATTGACCACTGTGTTTAGTAA DVCLDCNNIFIHFLIDHCV** -1.364 0.001553 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25576 TRVPHSP 7 SLAY-screened peptide P3926 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCGCGTTCCCCATTCCCCTTAGTCGCTTAACGGCCCTAGGCTTCTGTTCTCCCCGTCCTAA TRVPHSP*SLNGPRLLFSPS* -1.364 0.002301 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25577 AMNDRPLL 8 SLAY-screened peptide P3927 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTATGAACGATCGCCCCCTGCTCTAGGCTAGTTTTAGCGGTATTTTTTATCGCATTACTTAA AMNDRPLL*ASFSGIFYRIT* -1.364 0.000055 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25578 STSTRCNPFRTFNAVDYILF 20 SLAY-screened peptide P3928 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACGAGTACTCGTTGTAACCCTTTTCGGACCTTCAATGCCGTTGACTATATTCTCTTCTAA STSTRCNPFRTFNAVDYILF* -1.364 0.003385 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25579 DVISLPETRLMWWSAYPTCL 20 SLAY-screened peptide P3929 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGTCATCTCGCTTCCTGAGACGCGTCTGATGTGGTGGTCTGCCTATCCTACTTGCCTGTAA DVISLPETRLMWWSAYPTCL* -1.364 0.000462 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25580 SADGSAGYPSGFCVSFLQVL 20 SLAY-screened peptide P3930 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGCGGATGGCAGTGCTGGTTACCCCTCGGGCTTTTGTGTTTCTTTTCTGCAGGTCCTGTAA SADGSAGYPSGFCVSFLQVL* -1.364 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25581 RCIFLTNNAFIPYRHKHCIL 20 SLAY-screened peptide P3931 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTGTATCTTTCTTACCAACAATGCTTTTATCCCTTATCGTCACAAGCACTGTATTCTGTAA RCIFLTNNAFIPYRHKHCIL* -1.364 0.010531 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25582 ASTMSTTS 8 SLAY-screened peptide P3932 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTCTACTATGTCTACTACTAGTTAGCTCCTGATCTTCTTAACCCCATTCGGAGCATCTAAC ASTMSTTS*LLIFLTPFGASN -1.363 0.007957 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25583 IRITTGYCPAERRNMPIAAS 20 SLAY-screened peptide P3933 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCGTATTACCACTGGCTACTGCCCTGCGGAGAGGCGCAATATGCCGATTGCTGCTAGTTAA IRITTGYCPAERRNMPIAAS* -1.363 0.001755 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25584 FNLHIYSWCSHVTI 14 SLAY-screened peptide P3934 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTAACCTTCATATTTATTCTTGGTGCTCCCACGTCACTATCTGATCAATAACGCTTAGTAAC FNLHIYSWCSHVTI*SITLSN -1.362 0.001452 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25585 AFRAIVDAPITWAPVTSLVC 20 SLAY-screened peptide P3935 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTTCCGCGCGATCGTGGACGCGCCTATCACTTGGGCCCCTGTTACTTCCTTGGTGTGTTAA AFRAIVDAPITWAPVTSLVC* -1.362 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25586 TNTVGTFVHFPHSIYWYRPT 20 SLAY-screened peptide P3936 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAATACCGTGGGGACCTTCGTCCACTTCCCTCATTCCATTTATTGGTACAGGCCCACCTAA TNTVGTFVHFPHSIYWYRPT* -1.362 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25587 PCFPRTHTRASTVYLTSRSK 20 SLAY-screened peptide P3937 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGTTTTCCTCGCACTCACACTCGGGCTAGCACGGTTTACCTCACGTCGCGGTCTAAGTAA PCFPRTHTRASTVYLTSRSK* -1.362 0.017899 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25588 HRYTPVVVGWPIPSSRTLMP 20 SLAY-screened peptide P3938 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGGTACACTCCTGTTGTTGTTGGCTGGCCGATCCCGTCGTCTCGCACTTTGATGCCTTAA HRYTPVVVGWPIPSSRTLMP* -1.362 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25589 CTRFGSYDSISTSSVHFQFV 20 SLAY-screened peptide P3939 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCACTAGGTTTGGCTCTTATGACAGTATTTCGACGAGTAGTGTCCATTTTCAGTTTGTGTAA CTRFGSYDSISTSSVHFQFV* -1.362 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25590 PPGPVDCPPRIPHNRQKFPT 20 SLAY-screened peptide P3940 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCCGGTCCCGTTGATTGTCCTCCCCGCATCCCCCATAACCGGCAGAAGTTTCCTACTTAA PPGPVDCPPRIPHNRQKFPT* -1.361 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25591 ADPENSSLRCAPIFPGFTRT 20 SLAY-screened peptide P3941 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGACCCTGAGAACTCCTCGCTTCGTTGCGCGCCCATCTTCCCCGGTTTTACCAGGACCTAA ADPENSSLRCAPIFPGFTRT* -1.361 0.003041 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25592 PEWRKSWAAYSRAFLV 16 SLAY-screened peptide P3942 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGAGTGGAGGAAGTCTTGGGCTGCTTACTCCCGCGCTTTTTTAGTATGAGTAACTGAGTAA PEWRKSWAAYSRAFLV*VTE* -1.361 0.000463 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25593 RPNTRPSL 8 SLAY-screened peptide P3943 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCTAACACCCGGCCTAGCCTTTAGCATCTTAATCGCGAGTAAGTCGACCTGCAGGCATGC RPNTRPSL*HLNRE*VDLQAC -1.361 0.010181 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25594 SPHMCRRRVNNRWFVGALAF 20 SLAY-screened peptide P3944 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCCGCATATGTGTCGCCGTCGGGTTAATAACCGCTGGTTTGTTGGCGCGCTTGCCTTCTAA SPHMCRRRVNNRWFVGALAF* -1.361 0.000445 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25595 HIKEPYSLNCRDLFYLARRI 20 SLAY-screened peptide P3945 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATCAAGGAGCCTTATAGCCTTAATTGTCGCGACCTTTTCTACTTGGCCCGTCGTATCTAA HIKEPYSLNCRDLFYLARRI* -1.361 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25596 RDTHRWHVLANNSFRGGPRV 20 SLAY-screened peptide P3946 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGATACTCACCGGTGGCATGTTCTGGCTAACAACTCGTTTAGGGGGGGTCCGAGGGTGTAA RDTHRWHVLANNSFRGGPRV* -1.361 0.007492 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25597 FRRSPL 6 SLAY-screened peptide P3947 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCGTCGCTCCCCTCTGTAGCTCATTGCCCTGTCTGCCTCCCCTTCGACGGCTCCCAGCTAA FRRSPL*LIALSASPSTAPS* -1.361 0.020672 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25598 HPPSIVLRALYKYVLSPFLS 20 SLAY-screened peptide P3948 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTCCGAGTATTGTGTTGAGGGCCCTGTATAAGTACGTCTTGTCCCCGTTTCTTTCCTAA HPPSIVLRALYKYVLSPFLS* -1.361 0.031671 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25599 CTLQFHDLIYTILPLPLYNI 20 SLAY-screened peptide P3949 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCACCCTGCAGTTTCACGATCTGATCTATACTATCCTGCCCCTTCCTCTGTATAACATTTAA CTLQFHDLIYTILPLPLYNI* -1.36 0.027099 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25600 GCDSYSTILLNCINPCYNYL 20 SLAY-screened peptide P3950 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTGCGATAGTTACTCGACGATTCTTTTGAACTGTATTAACCCGTGCTATAATTATCTCTAA GCDSYSTILLNCINPCYNYL* -1.36 0.007801 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25601 AFYAGSLLRPEPEAPDQATP 20 SLAY-screened peptide P3951 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTTCTACGCTGGCAGTCTGCTCAGGCCGGAGCCGGAGGCGCCTGATCAGGCGACTCCGTAA AFYAGSLLRPEPEAPDQATP* -1.36 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25602 ATPSCFCATHHRPWYWW 17 SLAY-screened peptide P3952 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACTCCTAGTTGTTTTTGTGCCACTCACCACCGCCCGTGGTATTGGTGGTAGGCTTGCTAA ATPSCFCATHHRPWYWW*AC* -1.36 0.001001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25603 HAIHDALSVPGNVVVVNWLH 20 SLAY-screened peptide P3953 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCCATCCACGATGCCCTGAGTGTCCCGGGCAACGTCGTCGTTGTTAACTGGCTGCATTAA HAIHDALSVPGNVVVVNWLH* -1.36 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25604 GSGDHNINIYLCHDSNENNP 20 SLAY-screened peptide P3954 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTCCGGTGATCACAACATCAACATTTACCTTTGTCATGACAGTAATGAGAACAATCCTTAA GSGDHNINIYLCHDSNENNP* -1.36 0.010687 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25605 LSSITTGFN 9 SLAY-screened peptide P3955 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCTTCCATTACTACGGGTTTTAATTAGGACAGCTATCTTGCTACGTTGCCTGGCGGCTAA LSSITTGFN*DSYLATLPGG* -1.36 0.02565 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25606 RV 2 SLAY-screened peptide P3956 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGTCTAGCCGCATTTTGACTCCTTGAAAGTCGAATTAGATGTGGGCCCCTTACAGTGATTA RV*PHFDSLKVELDVGPLQ*L -1.36 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25607 SRNSDVAILLWAQTSSKATY 20 SLAY-screened peptide P3957 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGGAATTCTGATGTTGCGATTCTCTTGTGGGCCCAGACGAGCAGCAAGGCTACGTATTAA SRNSDVAILLWAQTSSKATY* -1.359 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25608 PVCSDRFQYRHWPYTLILYS 20 SLAY-screened peptide P3958 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTTTGTTCTGATCGTTTTCAGTATCGTCATTGGCCTTATACGCTTATCTTGTACTCGTAA PVCSDRFQYRHWPYTLILYS* -1.359 0.007135 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25609 SKSPPHSRYYCCIFLGIPKI 20 SLAY-screened peptide P3959 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTAAGTCGCCGCCGCACAGCCGTTACTACTGCTGTATCTTCCTGGGTATTCCCAAGATCTAA SKSPPHSRYYCCIFLGIPKI* -1.359 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25610 IIEHAICTSYPRWFTSITLIN 21 SLAY-screened peptide P3960 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCATCGAGCACGCCATTTGTACTTCTTATCCAAGATGGTTCACATCAATCACATTGATTAAC IIEHAICTSYPRWFTSITLIN -1.359 0.000205 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25611 RLQVIY 6 SLAY-screened peptide P3961 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTCCAGGTTATCTATTAGAGCTATGCGCCCCGTCATGAGCTGTGGTAGCGGAAGAGCTAA RLQVIY*SYAPRHELW*RKS* -1.359 0.000844 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25612 CAHNKPSFMLA 11 SLAY-screened peptide P3962 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGCTCACAACAAGCCGTCCTTTATGCTGGCCTAGGGCTGTCCGCGGACGCTTTTTCCCTAA CAHNKPSFMLA*GCPRTLFP* -1.359 0.047086 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25613 SHLAGFICPLTLFFFSRTPS 20 SLAY-screened peptide P3963 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCATTTGGCTGGTTTCATTTGCCCTCTTACCTTGTTTTTCTTCAGTAGGACTCCCAGTTAA SHLAGFICPLTLFFFSRTPS* -1.359 0.003921 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25614 LFNIWLTHFTG 11 SLAY-screened peptide P3964 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTCAATATTTGGCTGACGCATTTCACCGGTTAGCACGCGCACGATAACGCGATCCGTTAA LFNIWLTHFTG*HAHDNAIR* -1.358 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25615 THTLEFRETIDNKYSAYNNY 20 SLAY-screened peptide P3965 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCACACCCTGGAGTTTCGTGAGACGATCGATAATAAGTACTCCGCCTATAACAATTACTAA THTLEFRETIDNKYSAYNNY* -1.358 0.000069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25616 HVLYPVFIHYYPDIITD 17 SLAY-screened peptide P3966 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGTTTTGTACCCCGTCTTCATCCACTATTACCCCGATATTATTACGGATTAGACGAGCTAA HVLYPVFIHYYPDIITD*TS* -1.358 0.035055 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25617 RSWLPLCPILTAIRGSTRTVN 21 SLAY-screened peptide P3967 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAGCTGGCTGCCACTTTGCCCGATACTTACCGCCATTCGAGGCAGTACACGAACTGTTAAC RSWLPLCPILTAIRGSTRTVN -1.357 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25618 IKRIIDATTNGYVYHTLRPP 20 SLAY-screened peptide P3968 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAAGAGGATCATTGATGCTACGACCAACGGGTATGTGTACCATACCTTGCGTCCCCCCTAA IKRIIDATTNGYVYHTLRPP* -1.357 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25619 PFSAW 5 SLAY-screened peptide P3969 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTTCAGCGCCTGGTAGTGCCGTAATATTATTAAGCCTTAGTCCCTCTCCATGTTGCATTAA PFSAW*CRNIIKP*SLSMLH* -1.357 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25620 MNCYTGS 7 SLAY-screened peptide P3970 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGAATTGCTATACCGGCTCTTAGCGGTCTTTGTATATGACGCACAACTCCATCTCCTATTAA MNCYTGS*RSLYMTHNSISY* -1.357 0.036302 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25621 RKVYNRNLNQWLVFTQIESF 20 SLAY-screened peptide P3971 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAAGGTTTACAATCGTAACCTTAATCAGTGGCTTGTTTTCACTCAGATTGAGTCTTTCTAA RKVYNRNLNQWLVFTQIESF* -1.357 0.000037 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25622 SSVSAYRRHDSIRVDLVPFL 20 SLAY-screened peptide P3972 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTCTGTTAGTGCTTATCGCCGTCATGACAGCATCCGCGTTGATCTGGTTCCTTTCCTGTAA SSVSAYRRHDSIRVDLVPFL* -1.357 0.004866 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25623 FLSNFERFD 9 SLAY-screened peptide P3973 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCTCTCTAACTTTGAGCGTTTTGATTAGACTCTCATCCCTACGCATAACTTTTTCGATTAA FLSNFERFD*TLIPTHNFFD* -1.357 0.011476 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25624 TIRITLFMPSRKYDKFCIDR 20 SLAY-screened peptide P3974 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTATCCGTATTACGCTTTTTATGCCTTCTCGTAAGTACGACAAGTTTTGCATTGACCGTTAA TIRITLFMPSRKYDKFCIDR* -1.357 0.009481 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25625 RFLPHYFNINFPIRILNPVY 20 SLAY-screened peptide P3975 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTTTCTTCCGCATTATTTTAATATTAACTTTCCGATCCGCATTCTCAACCCTGTGTACTAA RFLPHYFNINFPIRILNPVY* -1.356 0.015544 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25626 LCRPRP 6 SLAY-screened peptide P3976 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTGTCGGCCTAGGCCGTAGGACACCGCTTTTTTTCATTTTCCCTCCATCTTTGTTCACTAA LCRPRP*DTAFFHFPSIFVH* -1.356 0.000081 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25627 SSDILYVFLLPPKVRVCCNN 20 SLAY-screened peptide P3977 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTCCGACATTCTCTACGTCTTTTTGTTGCCGCCTAAGGTCCGCGTTTGCTGCAACAATTAA SSDILYVFLLPPKVRVCCNN* -1.356 0.01628 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25628 FHCGS 5 SLAY-screened peptide P3978 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCATTGTGGCTCCTAGATCCCGCATAATCTCAAGTAGTATAACATCAACGATGACAATTAA FHCGS*IPHNLK*YNINDDN* -1.356 0.018153 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25629 VRSNLSRISVQVPMHFFSYI 20 SLAY-screened peptide P3979 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGAGGAGCAATCTGTCCCGTATTTCCGTGCAGGTGCCTATGCATTTTTTCTCGTATATTTAA VRSNLSRISVQVPMHFFSYI* -1.356 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25630 LASPINLYTLCIAIFHPSTP 20 SLAY-screened peptide P3980 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGCTTCGCCCATCAACCTTTATACTCTGTGTATCGCTATCTTCCATCCCTCTACTCCGTAA LASPINLYTLCIAIFHPSTP* -1.355 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25631 ATTGTGLCADHRDALDIIRL 20 SLAY-screened peptide P3981 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACTACTGGCACCGGCTTGTGTGCGGACCACCGGGACGCGCTTGATATCATCAGGCTCTAA ATTGTGLCADHRDALDIIRL* -1.355 0.029756 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25632 PQRSIAGYI 9 SLAY-screened peptide P3982 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCAGCGTTCCATCGCTGGTTATATCTAGATCATGATCGGGATCTTCAGGCGGATCGCCTAA PQRSIAGYI*IMIGIFRRIA* -1.355 0.008331 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25633 PSNCVIRWTLHGLPNTYYRL 20 SLAY-screened peptide P3983 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCCAACTGCGTTATTCGCTGGACTCTGCATGGCCTGCCTAATACCTATTATAGGCTTTAA PSNCVIRWTLHGLPNTYYRL* -1.355 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25634 VSSRALTILRSSPNALNYLK 20 SLAY-screened peptide P3984 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTCGTCTCGTGCCTTGACGATCCTTCGCTCGAGCCCGAATGCCCTGAATTACCTTAAGTAA VSSRALTILRSSPNALNYLK* -1.355 0.000712 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25635 AAHPCHIDPDYHYLRHILIS 20 SLAY-screened peptide P3985 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCGCACCCGTGTCATATTGACCCGGATTACCATTATCTTCGTCATATCCTGATCTCTTAA AAHPCHIDPDYHYLRHILIS* -1.354 0.009018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25636 RPIRSRLSSTTKSAIRMMTF 20 SLAY-screened peptide P3986 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCGATTCGCAGTCGTCTCAGCAGTACCACGAAGTCTGCTATCCGTATGATGACGTTCTAA RPIRSRLSSTTKSAIRMMTF* -1.354 0.010202 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25637 PTPWSYPAWPCLCSYATQFL 20 SLAY-screened peptide P3987 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACCCCTTGGTCCTACCCTGCCTGGCCCTGTCTTTGTTCCTACGCCACCCAGTTCCTGTAA PTPWSYPAWPCLCSYATQFL* -1.354 0.000372 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25638 VRHRLPWNKRNNCVIMVNYR 20 SLAY-screened peptide P3988 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCGGCACCGTCTCCCTTGGAACAAGCGCAACAATTGCGTTATTATGGTTAATTATCGTTAA VRHRLPWNKRNNCVIMVNYR* -1.354 0.00008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25639 DFFRSN 6 SLAY-screened peptide P3989 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTTCTTTCGGTCGAATTAGGCGACGAAGCGGCTTGCTCTTGCCGCGACCCCTTCCGCGTAA DFFRSN*ATKRLALAATPSA* -1.354 0.019799 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25640 SATTSDASWPYEFMYLSNFV 20 SLAY-screened peptide P3990 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGCGACCACCAGCGATGCCTCTTGGCCGTACGAGTTTATGTATCTTAGCAACTTTGTTTAA SATTSDASWPYEFMYLSNFV* -1.354 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25641 HPDTADVSSYCMVFPALQIL 20 SLAY-screened peptide P3991 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTGATACCGCTGATGTTTCGAGTTACTGTATGGTCTTTCCTGCCCTGCAGATCCTCTAA HPDTADVSSYCMVFPALQIL* -1.354 0.0045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25642 AA 2 SLAY-screened peptide P3992 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGCTTAGTCTTTGTGTTAGATCCAGCTTCCTCCGCGCAAGAGCAACGCCGATCCCAATTAA AA*SLC*IQLPPRKSNADPN* -1.353 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25643 IDVPSSGVHENTRANALSPV 20 SLAY-screened peptide P3993 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGATGTGCCTTCGAGCGGTGTGCACGAGAATACCAGGGCTAACGCCCTGAGCCCGGTGTAA IDVPSSGVHENTRANALSPV* -1.353 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25644 IRISYRILSHQPSLHPSNSR 20 SLAY-screened peptide P3994 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCGGATCAGCTATAGGATCCTTTCGCACCAGCCCAGCCTCCACCCTTCTAATAGTCGGTAA IRISYRILSHQPSLHPSNSR* -1.353 0.005525 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25645 SPSCIFSRVFRKLRNLTPSL 20 SLAY-screened peptide P3995 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCCAGTTGCATCTTCAGCCGTGTTTTTCGGAAGCTCCGTAACCTGACCCCTTCGCTCTAA SPSCIFSRVFRKLRNLTPSL* -1.353 0.038953 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25646 LASPWLFRPLPFPHISMSHP 20 SLAY-screened peptide P3996 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGCCTCCCCTTGGCTTTTCAGGCCTCTTCCTTTTCCGCACATCTCCATGTCCCACCCTTAA LASPWLFRPLPFPHISMSHP* -1.353 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25647 FAFANSTVNTLPLTTLTSLS 20 SLAY-screened peptide P3997 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGCCTTCGCTAACTCTACCGTCAATACGCTTCCTCTGACTACCCTTACTTCTCTGAGTTAA FAFANSTVNTLPLTTLTSLS* -1.353 0.020956 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25648 TLLSHWEARGTSTFVANPSH 20 SLAY-screened peptide P3998 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTTCTGTCTCACTGGGAGGCCCGCGGCACCAGTACTTTTGTGGCCAACCCTTCCCATTAA TLLSHWEARGTSTFVANPSH* -1.352 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25649 PVHDAQWRATRYAIVIVFPS 20 SLAY-screened peptide P3999 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTCCATGATGCTCAGTGGCGCGCGACTAGGTACGCGATTGTCATCGTGTTTCCCTCTTAA PVHDAQWRATRYAIVIVFPS* -1.352 0.000177 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25650 HLGGPSSESRSSDPYVANFC 20 SLAY-screened peptide P4000 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTTGGGGGGCCTAGCAGCGAGAGCCGTTCGAGTGATCCCTACGTTGCGAATTTTTGCTAA HLGGPSSESRSSDPYVANFC* -1.352 0.004719 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25651 IIL 3 SLAY-screened peptide P4001 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCATCCTTTAGGTCTCCTCTAACCAGGGTCATATCTTTACGACGTCCAGCTTTGGCACCTAA IIL*VSSNQGHIFTTSSFGT* -1.352 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25652 TFNLLIRRDILS 12 SLAY-screened peptide P4002 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTTTAACCTGCTCATTCGTCGCGACATCCTTAGTTGAAGATCTATCCCGAGACTCTCTAAC TFNLLIRRDILS*RSIPRLSN -1.352 0.036203 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25653 HLVNLIQWLINHCSQCSPRF 20 SLAY-screened peptide P4003 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTCGTGAACCTCATTCAGTGGCTGATTAATCATTGTTCCCAGTGCAGTCCGCGCTTTTAA HLVNLIQWLINHCSQCSPRF* -1.351 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25654 WLWDRTLSTPLLVNSQCHDY 20 SLAY-screened peptide P4004 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCTGTGGGACCGTACTCTTAGCACTCCGCTCCTGGTTAATTCGCAGTGTCATGACTATTAA WLWDRTLSTPLLVNSQCHDY* -1.351 0.000052 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25655 TSTTWVLDITPHPKYPRRGL 20 SLAY-screened peptide P4005 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCCACGACGTGGGTTCTCGATATCACCCCTCATCCCAAGTACCCCCGGCGGGGTCTGTAA TSTTWVLDITPHPKYPRRGL* -1.351 0.005306 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25656 ALRLEGLISFPMLTAHYTGW 20 SLAY-screened peptide P4006 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCTCCGCTTGGAGGGTTTGATTAGTTTTCCCATGCTTACCGCGCATTATACGGGGTGGTAA ALRLEGLISFPMLTAHYTGW* -1.35 0.007726 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25657 HFVHPRCHNSWYDSLDNFDL 20 SLAY-screened peptide P4007 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTTTGTTCACCCCCGTTGTCACAATAGTTGGTATGACTCCCTGGACAACTTCGATTTGTAA HFVHPRCHNSWYDSLDNFDL* -1.35 0.025335 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25658 PACNTRALQATNGNFSIHK 19 SLAY-screened peptide P4008 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTTGTAATACTCGTGCGCTTCAGGCCACTAATGGCAACTTCTCTATTCATAAGTAGTAA PACNTRALQATNGNFSIHK** -1.35 0.02322 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25659 PIQVRAPLDKTLKRT 15 SLAY-screened peptide P4009 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATCCAGGTCAGGGCGCCTCTGGACAAGACCCTGAAGCGCACGTAGTTCTATTACGATTAA PIQVRAPLDKTLKRT*FYYD* -1.35 0.033577 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25660 CHLHTTEHHRRNNYQSYNHI 20 SLAY-screened peptide P4010 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCATCTTCACACGACTGAGCACCACCGCCGCAATAACTATCAGTCGTATAACCATATTTAA CHLHTTEHHRRNNYQSYNHI* -1.35 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25661 WSNADILLHEHSVTE 15 SLAY-screened peptide P4011 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGAGTAACGCTGACATTCTCCTCCACGAACATTCTGTAACTGAGTAAGTCGACCTGCAGGCA WSNADILLHEHSVTE*VDLQA -1.35 0.01993 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25662 AAK 3 SLAY-screened peptide P4012 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCCAAGTAGGCCCATGATCCGATGATTCGGTGTCCGGCTTATGATCATATGGGCATCTAA AAK*AHDPMIRCPAYDHMGI* -1.35 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25663 CSPTHPHPSRTTPIASPSQR 20 SLAY-screened peptide P4013 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTCGCCTACGCATCCCCATCCTTCGCGTACGACTCCGATTGCCTCGCCGTCGCAGCGTTAA CSPTHPHPSRTTPIASPSQR* -1.35 0.042117 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25664 HRWKVPVR 8 SLAY-screened peptide P4014 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGGTGGAAGGTGCCGGTGCGTTAGATCTCCAGGGCTAGTTGTTATGCGCATACCTATTAA HRWKVPVR*ISRASCYAHTY* -1.35 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25665 PNLCDPWFYRIGVRLPMYSL 20 SLAY-screened peptide P4015 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAATCTTTGCGACCCGTGGTTTTATAGGATTGGGGTTAGGTTGCCTATGTACAGCCTTTAA PNLCDPWFYRIGVRLPMYSL* -1.35 0.00328 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25666 SAHTTNMTCPVFD 13 SLAY-screened peptide P4016 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGCCCATACTACCAATATGACCTGCCCGGTCTTTGACTAGGTCGCGACCCAGTTCAGGTAA SAHTTNMTCPVFD*VATQFR* -1.349 0.009093 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25667 SMPITIRSNLTQFNNH 16 SLAY-screened peptide P4017 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTATGCCTATCACTATTCGTAGTAACCTCACTCAGTTCAACAATCACTAGGCGCACTGGTAA SMPITIRSNLTQFNNH*AHW* -1.349 0.000123 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25668 PPILTRLPRLSVWSVITTMGN 21 SLAY-screened peptide P4018 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCGATACTGACTCGGTTACCCCGTTTATCCGTATGGTCTGTTATAACGACCATGGGTAAC PPILTRLPRLSVWSVITTMGN -1.349 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25669 HRNSVLIFTHAASLVLFKLGS 21 SLAY-screened peptide P4019 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCGTAATTCGGTTCTCATTTTTACCCACGCCGCTAGTCTGGTGCTCTTCAAGCTCGGGAGT HRNSVLIFTHAASLVLFKLGS -1.349 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25670 MYYSPHHHCHIYTP 14 SLAY-screened peptide P4020 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTATTATTCGCCTCACCATCACTGTCATATCTATACGCCTTAGTTTCCTTCTGCTCCCTAA MYYSPHHHCHIYTP*FPSAP* -1.348 0.018861 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25671 PIQRCP 6 SLAY-screened peptide P4021 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATTCAGCGTTGTCCCTAGCTTTACGTTACTGTTATTTCTAGTTATCCCACGTGCCACTAA PIQRCP*LYVTVISSYPTCH* -1.348 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25672 DTIRSMLNELNAD 13 SLAY-screened peptide P4022 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACACCATCAGGAGCATGTTGAACGAGCTCAACGCTGATTAGCTGACTCACGGCAGTCGTTAA DTIRSMLNELNAD*LTHGSR* -1.348 0.000081 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25673 CTHDEANSQSSAYQFLDYTFN 21 SLAY-screened peptide P4023 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCACTCACGATGAGGCTAACTCCCAGTCCTCTGCCTATCAGTTTCTTGATTATACTTTTAAC CTHDEANSQSSAYQFLDYTFN -1.347 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25674 LYMPITPSSAWFMSKDFHPP 20 SLAY-screened peptide P4024 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTATATGCCGATCACTCCCTCGTCCGCCTGGTTTATGTCGAAGGATTTTCATCCCCCGTAA LYMPITPSSAWFMSKDFHPP* -1.347 0.000042 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25675 CPVQPLEKPLGQASTPTYVV 20 SLAY-screened peptide P4025 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCTGTTCAGCCGCTCGAGAAGCCCCTGGGGCAGGCGTCTACTCCCACCTATGTTGTTTAA CPVQPLEKPLGQASTPTYVV* -1.347 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25676 EQLRSRPGLSCTFSVCVLTN 20 SLAY-screened peptide P4026 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCAGCTGCGGAGCCGCCCCGGGCTTTCCTGCACCTTTTCCGTGTGTGTTCTGACGAACTAA EQLRSRPGLSCTFSVCVLTN* -1.347 0.00006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25677 HTSDIYFICHPCNTYFHMNR 20 SLAY-screened peptide P4027 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACCAGTGATATCTACTTTATTTGCCACCCCTGCAATACCTATTTCCACATGAACCGCTAA HTSDIYFICHPCNTYFHMNR* -1.347 0.000198 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25678 GTELHFLVACTFDPGYECSS 20 SLAY-screened peptide P4028 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTACTGAGCTGCACTTCCTGGTTGCGTGTACGTTTGATCCCGGGTATGAGTGCTCCAGTTAA GTELHFLVACTFDPGYECSS* -1.347 0.00445 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25679 HPRHSINHALLINNTVCLQA 20 SLAY-screened peptide P4029 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCCCGCCATTCTATCAACCACGCGCTTCTCATCAATAATACTGTTTGTTTGCAGGCTTAA HPRHSINHALLINNTVCLQA* -1.347 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25680 DVGGLSLHRRFREC 14 SLAY-screened peptide P4030 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGTCGGTGGGCTGTCTCTCCACCGGCGTTTTCGTGAGTGTTAGAGTAACACTGGCACTTAA DVGGLSLHRRFREC*SNTGT* -1.346 0.000655 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25681 YTKSLMLVTPILPRDYDTNP 20 SLAY-screened peptide P4031 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACTAAGTCGCTGATGCTTGTCACCCCTATTCTCCCTCGCGACTACGATACCAATCCGTAA YTKSLMLVTPILPRDYDTNP* -1.346 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25682 TTPTGRSTDVKTGEYVSNAM 20 SLAY-screened peptide P4032 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACCCCTACGGGGCGTAGCACTGACGTCAAGACTGGTGAGTATGTTAGCAACGCGATGTAA TTPTGRSTDVKTGEYVSNAM* -1.346 0.000031 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25683 ADCSSIRYPETFGFAPTFICT 21 SLAY-screened peptide P4033 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGACTGTAGTTCTATCCGGTATCCTGAAACATTTGGCTTTGCTCCGACATTTATCTGTACT ADCSSIRYPETFGFAPTFICT -1.346 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25684 HRNTRPSPCFIVYLPPNDAN 20 SLAY-screened peptide P4034 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAGGAATACCCGGCCTTCTCCTTGTTTCATTGTGTACCTCCCGCCCAACGATGCTAATTAA HRNTRPSPCFIVYLPPNDAN* -1.345 0.000525 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25685 TLRCSYNSQTWSKA 14 SLAY-screened peptide P4035 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTGCGCTGCTCTTATAACAGCCAGACTTGGAGTAAGGCCTAGCTCTCGTATTTTGACTAA TLRCSYNSQTWSKA*LSYFD* -1.345 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25686 GRNHTFYKPNNGTQCINDHS 20 SLAY-screened peptide P4036 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCGTAACCATACTTTCTACAAGCCCAACAATGGTACCCAGTGCATTAACGACCACAGCTAA GRNHTFYKPNNGTQCINDHS* -1.345 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25687 PCSPPCTCFTLDFSDCYCLT 20 SLAY-screened peptide P4037 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCTCGCCCCCCTGCACGTGCTTTACTCTCGATTTTTCTGATTGCTATTGCCTTACTTAA PCSPPCTCFTLDFSDCYCLT* -1.345 0.012377 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25688 PTKILTPTMRKNVTHLIANN 20 SLAY-screened peptide P4038 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACGAAGATCTTGACCCCTACGATGCGTAAGAATGTGACGCATCTCATTGCTAACAATTAA PTKILTPTMRKNVTHLIANN* -1.345 0.000908 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25689 FDDASRICPIFPSVSSSTTCN 21 SLAY-screened peptide P4039 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGATGATGCCTCCCGGATTTGTCCGATATTCCCATCCGTATCAAGTTCAACTACCTGTAAC FDDASRICPIFPSVSSSTTCN -1.345 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25690 FLPPVPSPTYHFFSLPISSI 20 SLAY-screened peptide P4040 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCTGCCCCCTGTCCCCAGTCCTACTTATCACTTTTTTAGCCTTCCCATTTCGTCCATTTAA FLPPVPSPTYHFFSLPISSI* -1.344 0.013318 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25691 TNLFCRPVVNIFQTYVCYNL 20 SLAY-screened peptide P4041 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAACCTCTTCTGTAGGCCCGTGGTGAACATCTTCCAGACCTATGTCTGTTATAACCTGTAA TNLFCRPVVNIFQTYVCYNL* -1.344 0.025038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25692 PYMHHDFLHGHTFS 14 SLAY-screened peptide P4042 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTATATGCATCATGACTTTCTTCATGGCCATACGTTTTCCTAGTTCTTGAGCGTTCATTAA PYMHHDFLHGHTFS*FLSVH* -1.344 0.005179 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25693 LKTNSDLRPTKLRSYFYLLH 20 SLAY-screened peptide P4043 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGAAGACCAATAGCGACCTTAGGCCGACCAAGCTTAGGTCCTATTTTTATCTTCTGCATTAA LKTNSDLRPTKLRSYFYLLH* -1.344 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25694 PLTCPAILVRPSFLAPCYGF 20 SLAY-screened peptide P4044 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCACGTGTCCTGCCATTTTGGTTCGGCCTAGCTTCCTGGCGCCTTGTTATGGCTTTTAA PLTCPAILVRPSFLAPCYGF* -1.344 0.02358 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25695 SPWPNDKFLPTTMQPKDARF 20 SLAY-screened peptide P4045 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCCCTGGCCCAACGACAAGTTCCTGCCTACTACTATGCAGCCTAAGGACGCCAGGTTTTAA SPWPNDKFLPTTMQPKDARF* -1.343 0.003325 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25696 LNCLQYL 7 SLAY-screened peptide P4046 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAATTGCTTGCAGTACCTCTAGCCCTTTCTTAGGCTTGCCAGGATTTTTCGTCCGCCCTAA LNCLQYL*PFLRLARIFRPP* -1.343 0.000034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25697 SADPHTLVLDINFNSTNMEA 20 SLAY-screened peptide P4047 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGCTGACCCGCACACGCTCGTTTTGGACATCAATTTTAACAGTACCAATATGGAGGCTTAA SADPHTLVLDINFNSTNMEA* -1.343 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25698 KRIVLRPSPKWVVEYPPRGD 20 SLAY-screened peptide P4048 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCGTATCGTGCTCCGCCCGTCGCCGAAGTGGGTCGTTGAGTATCCCCCGCGCGGCGACTAA KRIVLRPSPKWVVEYPPRGD* -1.343 0.000129 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25699 PERLTPFASSSTYGVVILVN 20 SLAY-screened peptide P4049 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGAGCGCCTCACTCCCTTTGCCAGCTCCAGTACCTACGGCGTCGTCATTCTCGTTAATTAA PERLTPFASSSTYGVVILVN* -1.343 0.008537 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25700 RCPRPVYPVDLMLVMSDVFI 20 SLAY-screened peptide P4050 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGCCCGCGGCCGGTGTATCCGGTTGATCTTATGCTGGTTATGTCTGATGTCTTTATCTAA RCPRPVYPVDLMLVMSDVFI* -1.342 0.003416 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25701 YADIVSTHIWNSLGERRFAK 20 SLAY-screened peptide P4051 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCCGACATCGTTTCTACTCATATTTGGAATAGCCTGGGGGAGCGTCGTTTTGCCAAGTAA YADIVSTHIWNSLGERRFAK* -1.342 0.049564 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25702 VRPSPFFYFSRYPCGATPYLY 21 SLAY-screened peptide P4052 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCGTCCTTCCCCTTTCTTCTACTTCTCCCGCTATCCTTGTGGTGCTACTCCGTATCTCTAC VRPSPFFYFSRYPCGATPYLY -1.342 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25703 TLFYITHGHTLKRAYWYNYI 20 SLAY-screened peptide P4053 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCTCTTCTACATCACTCACGGTCATACCCTGAAGCGGGCCTATTGGTATAATTACATCTAA TLFYITHGHTLKRAYWYNYI* -1.342 0.00204 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25704 LLCIPVFSA 9 SLAY-screened peptide P4054 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTCTGCATTCCTGTTTTCTCGGCGTAGTAGAGCCTGAATGATTCGTATAAGTCGTTCTAA LLCIPVFSA**SLNDSYKSF* -1.342 0.017316 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25705 IN 2 SLAY-screened peptide P4055 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAACTAGACTTGTCCGCATTCTGTTCCCCAGAGCAGTAAGACTCCCCACGCGCGCCATTAA IN*TCPHSVPQSSKTPHARH* -1.341 0.01835 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25706 RRPVLMRVLKAITPYFRW 18 SLAY-screened peptide P4056 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCGTCCTGTCCTTATGCGTGTGTTGAAGGCTATCACTCCTTATTTTCGGTGGTAGGCTTAA RRPVLMRVLKAITPYFRW*A* -1.341 0.000031 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25707 FPDSLIGTFCPIVPVPL 17 SLAY-screened peptide P4057 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCCGATTCGTTAATCGGCACCTTCTGCCCCATAGTTCCCGTGCCTTTATGAAGTCGTAAC FPDSLIGTFCPIVPVPL*SRN -1.341 0.000065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25708 PTFPPQHSSASLSFGGGSPHV 21 SLAY-screened peptide P4058 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACGTTTCCCCCTCAGCACAGTTCGGCCTCCTTGTCATTCGGCGGCGGATCACCACACGTA PTFPPQHSSASLSFGGGSPHV -1.341 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25709 PTSIPVTSPHIVEPSCAPRL 20 SLAY-screened peptide P4059 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACTTCTATCCCCGTGACGAGCCCTCACATCGTCGAGCCGAGTTGTGCTCCGCGCTTGTAA PTSIPVTSPHIVEPSCAPRL* -1.341 0.007374 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25710 HHSMYPYYPLYSRPVFTYTI 20 SLAY-screened peptide P4060 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCATAGCATGTACCCCTATTATCCTCTCTATAGTCGTCCTGTCTTTACCTATACTATTTAA HHSMYPYYPLYSRPVFTYTI* -1.341 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25711 YDYGFHILVYNNEVRGNDRN 20 SLAY-screened peptide P4061 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGATTACGGTTTCCACATCCTCGTTTACAATAACGAGGTTAGGGGTAACGACCGTAACTAA YDYGFHILVYNNEVRGNDRN* -1.34 0.000946 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25712 ITRRHALPMIRDSPNVGADD 20 SLAY-screened peptide P4062 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCACTCGCCGGCACGCTTTGCCGATGATCAGGGATAGTCCTAACGTCGGGGCTGATGACTAA ITRRHALPMIRDSPNVGADD* -1.34 0.002416 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25713 PPACTPPILCGAPAFCTQVV 20 SLAY-screened peptide P4063 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCGCCTGTACTCCGCCGATTCTTTGCGGTGCCCCTGCGTTTTGCACTCAGGTGGTCTAA PPACTPPILCGAPAFCTQVV* -1.34 0.001739 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25714 REASLMFCFVFHCTDFPSTC 20 SLAY-screened peptide P4064 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGAGGCCAGCCTCATGTTTTGCTTTGTCTTTCACTGCACTGACTTCCCCTCGACGTGCTAA REASLMFCFVFHCTDFPSTC* -1.34 0.000788 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25715 HPRTRFRSDIDRRCRRRVTS 20 SLAY-screened peptide P4065 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGCGCACCCGCTTTCGTTCCGATATTGATCGCCGGTGTCGCCGGCGGGTGACGAGTTAA HPRTRFRSDIDRRCRRRVTS* -1.339 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25716 SYPQMHANPYYSIYIIPLVM 20 SLAY-screened peptide P4066 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTATCCTCAGATGCATGCTAATCCTTATTATAGCATTTATATCATTCCTCTTGTGATGTAA SYPQMHANPYYSIYIIPLVM* -1.338 0.01141 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25717 AFHCFRPEDYHFHEIYSGHR 20 SLAY-screened peptide P4067 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTTCCACTGCTTTCGCCCGGAGGACTACCATTTCCACGAGATTTATTCCGGCCATCGTTAA AFHCFRPEDYHFHEIYSGHR* -1.338 0.04112 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25718 WRYNAPMDGGLHNIIL 16 SLAY-screened peptide P4068 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCGTTACAATGCCCCGATGGATGGTGGCCTCCACAACATTATTTTGTAGTTCATGACCTAA WRYNAPMDGGLHNIIL*FMT* -1.338 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25719 EQKSLATPDVTDTCLRYKIV 20 SLAY-screened peptide P4069 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCAGAAGAGCTTGGCGACCCCCGACGTTACCGATACCTGTCTCCGCTATAAGATCGTGTAA EQKSLATPDVTDTCLRYKIV* -1.338 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25720 TSRRHRCSRRTGHMVNFSHVN 21 SLAY-screened peptide P4070 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAGCCGCCGGCATCGGTGTTCGCGTCGGACCGGGCACATGGTGAACTTTTCCCATGTTAAC TSRRHRCSRRTGHMVNFSHVN -1.338 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25721 PCTMPPLSDFKAIGRTSTEP 20 SLAY-screened peptide P4071 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTACGATGCCCCCCTTGTCGGATTTCAAGGCCATTGGCCGCACTTCGACTGAGCCCTAA PCTMPPLSDFKAIGRTSTEP* -1.338 0.003683 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25722 SCTSADSLIWLVLNRVPPSIY 21 SLAY-screened peptide P4072 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGCACGAGTGCTGACTCGCTTATCTGGCTCGTTCTTAACCGTGTCCCTCCGTCTATTTAC SCTSADSLIWLVLNRVPPSIY -1.338 0.004231 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25723 ETSQRFQSIFRCYPL 15 SLAY-screened peptide P4073 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGACTTCGCAGCGGTTCCAGTCTATTTTTCGTTGTTATCCTCTTTAGCCCACTATTTTCTAA ETSQRFQSIFRCYPL*PTIF* -1.338 0.04895 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25724 PYLPDGSHSQPCALYSIPWV 20 SLAY-screened peptide P4074 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTATCTGCCCGACGGCTCTCACTCCCAGCCGTGTGCCCTCTACTCGATTCCTTGGGTGTAA PYLPDGSHSQPCALYSIPWV* -1.337 0.000213 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25725 HSFPISLCHWLRMKFKSCHS 20 SLAY-screened peptide P4075 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAGCTTCCCGATTAGCCTTTGTCACTGGCTGAGGATGAAGTTCAAGTCTTGTCACTCCTAA HSFPISLCHWLRMKFKSCHS* -1.337 0.000865 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25726 PWLFDTPNDCLRPSSIDTIA 20 SLAY-screened peptide P4076 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGGCTGTTTGACACTCCTAACGATTGCTTGCGCCCCTCCTCCATCGACACTATCGCTTAA PWLFDTPNDCLRPSSIDTIA* -1.337 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25727 ARLTAITHPMPHWH 14 SLAY-screened peptide P4077 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGTCTGACTGCTATTACCCATCCGATGCCGCACTGGCACTAGTCCGCTTACCGTGATTAA ARLTAITHPMPHWH*SAYRD* -1.337 0.001647 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25728 HKPLGSSARLSVSPLPLIMAN 21 SLAY-screened peptide P4078 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAAGCCCCTCGGTAGTTCTGCACGCCTATCAGTAAGCCCTCTTCCGCTTATAATGGCTAAC HKPLGSSARLSVSPLPLIMAN -1.337 0.00157 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25729 RPFQVASGLLVFLCSAIRTTN 21 SLAY-screened peptide P4079 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCCTTTCAGGTAGCAAGCGGCCTGCTAGTATTCCTCTGTTCGGCCATCAGGACAACTAAC RPFQVASGLLVFLCSAIRTTN -1.336 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25730 KSTVLKNPTCL 11 SLAY-screened peptide P4080 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTCTACTGTCTTGAAGAACCCCACCTGCCTCTAGTCTGTCACCACGTGGACCTTTTTTTAA KSTVLKNPTCL*SVTTWTFF* -1.336 0.000134 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25731 YLCSRKLCYCDILHVQNIRP 20 SLAY-screened peptide P4081 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTTTGCAGCCGCAAGCTGTGTTACTGCGATATCCTCCACGTCCAGAACATTCGTCCTTAA YLCSRKLCYCDILHVQNIRP* -1.336 0.000051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25732 LRHLLCFNARTVLKPLITNN 20 SLAY-screened peptide P4082 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGCCACCTTCTCTGCTTTAACGCCCGCACGGTTCTTAAGCCTTTGATTACCAACAATTAA LRHLLCFNARTVLKPLITNN* -1.336 0.039261 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25733 PQKSSFSNAWHRLADLRRRL 20 SLAY-screened peptide P4083 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCAGAAGTCTTCCTTTTCCAATGCGTGGCACCGCTTGGCTGACTTGCGTCGGCGCTTGTAA PQKSSFSNAWHRLADLRRRL* -1.335 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25734 HLCPRDIHKNILKTLYSEYF 20 SLAY-screened peptide P4084 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTCTGTCCCCGTGATATTCATAAGAATATTCTGAAGACTCTGTACTCTGAGTATTTCTAA HLCPRDIHKNILKTLYSEYF* -1.335 0.000042 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25735 FSPSTLIITNYVFNTRLPLL 20 SLAY-screened peptide P4085 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTCCCCGTCTACTCTGATCATTACGAATTACGTTTTCAATACTCGTTTGCCTCTTCTCTAA FSPSTLIITNYVFNTRLPLL* -1.335 0.047667 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25736 LYRRSIPDALLMNKTQLTGG 20 SLAY-screened peptide P4086 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTATCGCCGGTCCATTCCTGACGCCCTTCTCATGAACAAGACGCAGTTGACTGGTGGTTAA LYRRSIPDALLMNKTQLTGG* -1.334 0.003359 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25737 SYNCGIMTTLVNDWQPTQNH 20 SLAY-screened peptide P4087 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTACAATTGCGGCATTATGACCACTCTTGTGAATGATTGGCAGCCTACTCAGAACCACTAA SYNCGIMTTLVNDWQPTQNH* -1.334 0.013013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25738 LRSHLYIYTHTRPMYPDDPA 20 SLAY-screened peptide P4088 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGCTCGCACCTTTACATTTATACTCACACCCGTCCCATGTACCCGGACGATCCCGCCTAA LRSHLYIYTHTRPMYPDDPA* -1.334 0.004469 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25739 SPSSKYTPILSMIWHNIRTPN 21 SLAY-screened peptide P4089 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCCTTCCAGTAAGTATACTCCGATCCTCAGCATGATCTGGCACAACATTAGAACACCTAAC SPSSKYTPILSMIWHNIRTPN -1.334 0.01794 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25740 LCSHYATLLPIISTMRGRFY 20 SLAY-screened peptide P4090 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTGTTCTCACTATGCGACTCTCCTCCCTATCATCTCTACCATGCGTGGTCGGTTTTATTAA LCSHYATLLPIISTMRGRFY* -1.334 0.000209 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25741 FSVWPRSLNDSVYSNISSII 20 SLAY-screened peptide P4091 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTCCGTGTGGCCTCGCTCCCTCAACGACTCTGTCTATTCTAATATTAGTTCTATCATTTAA FSVWPRSLNDSVYSNISSII* -1.334 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25742 TCESPIRRILMVLTKRIRKL 20 SLAY-screened peptide P4092 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTGCGAGTCGCCCATCCGGAGGATTCTGATGGTCCTTACTAAGCGGATCCGCAAGCTCTAA TCESPIRRILMVLTKRIRKL* -1.334 0.02888 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25743 YLVLLFLVYFYVPIPMTDYRN 21 SLAY-screened peptide P4093 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCTGGTTCTTCTTTTCCTTGTTTATTTTTATGTTCCCATCCCTATGACTGATTACCGTAAC YLVLLFLVYFYVPIPMTDYRN -1.334 0.001169 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25744 TNQRTFTIFLNVANW 15 SLAY-screened peptide P4094 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAACCAGCGCACGTTTACTATCTTCCTCAATGTCGCGAACTGGTAGAGTAGTTAGGGTTAA TNQRTFTIFLNVANW*SS*G* -1.333 0.000069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25745 RSM 3 SLAY-screened peptide P4095 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTCGATGTAGCGTATTCCCAGTCGCCCTATACCCCTTGGAGCCATCCTCTCCCTTAGTAAC RSM*RIPSRPIPLGAILSLSN -1.333 0.000109 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25746 PPFVSPHLRSASLRLSSSET 20 SLAY-screened peptide P4096 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCTTTCGTCTCCCCTCACCTCCGCTCCGCCAGCCTGCGCCTCAGTTCTTCCGAGACTTAA PPFVSPHLRSASLRLSSSET* -1.333 0.004529 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25747 FTIRLLVTTFIIVYVRRSST 20 SLAY-screened peptide P4097 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTACTATCCGTCTTCTTGTCACCACTTTTATCATTGTGTATGTCCGCCGGTCCAGTACCTAA FTIRLLVTTFIIVYVRRSST* -1.333 0.000395 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25748 LHAWKAHISANRTRFLHTEP 20 SLAY-screened peptide P4098 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCATGCTTGGAAGGCCCATATCAGCGCTAATAGGACGCGCTTTCTGCATACTGAGCCCTAA LHAWKAHISANRTRFLHTEP* -1.333 0.005406 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25749 SSNPLIRTRCLHGRLIILL 19 SLAY-screened peptide P4099 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCGAACCCTCTCATCCGCACCCGTTGCCTCCACGGTCGCCTTATTATCCTGCTCTAGTAA SSNPLIRTRCLHGRLIILL** -1.333 0.001505 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25750 SCSHELRQSSPYSLYGTRMA 20 SLAY-screened peptide P4100 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTGCTCGCACGAGCTCCGCCAGTCCAGCCCGTACTCCCTGTATGGCACTCGCATGGCGTAA SCSHELRQSSPYSLYGTRMA* -1.332 0.001639 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25751 RCHAGTLIWPYQTIYMH 17 SLAY-screened peptide P4101 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTGTCACGCCGGCACTCTCATCTGGCCTTACCAGACGATCTACATGCACTAGAACTACTAA RCHAGTLIWPYQTIYMH*NY* -1.332 0.024837 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25752 LYPLTGASYYVTKALGISAL 20 SLAY-screened peptide P4102 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTACCCTCTCACGGGTGCCTCTTACTATGTTACCAAGGCGCTGGGCATTAGTGCCCTCTAA LYPLTGASYYVTKALGISAL* -1.331 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25753 VCFREPPPPWRHLKYIHYKR 20 SLAY-screened peptide P4103 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTGTTTCAGGGAGCCCCCCCCTCCGTGGCGTCACCTGAAGTACATTCACTACAAGAGGTAA VCFREPPPPWRHLKYIHYKR* -1.331 0.00005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25754 NCIHFLTVYNVDKYNYGINS 20 SLAY-screened peptide P4104 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGTATTCACTTCCTCACGGTCTATAATGTTGACAAGTACAACTATGGTATCAACAGTTAA NCIHFLTVYNVDKYNYGINS* -1.331 0.006868 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25755 PNR 3 SLAY-screened peptide P4105 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAACAGGTAGGGTCCCAGCTGCCTCACTCGCGTGGATTCTACTATCAGCGCTGTGCTTTAA PNR*GPSCLTRVDSTISAVL* -1.331 0.000077 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25756 TN 2 SLAY-screened peptide P4106 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGAATTAGTTTGGTGGCCGGTACGCCAAGATCATTCATTGTCGGGCCTGTGCGTTTTTCTAA TN*FGGRYAKIIHCRACAFF* -1.331 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25757 YHDDCDPVTMSMVFFRMRAY 20 SLAY-screened peptide P4107 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCATGATGACTGCGACCCGGTTACTATGTCGATGGTTTTCTTCCGCATGCGCGCCTACTAA YHDDCDPVTMSMVFFRMRAY* -1.331 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25758 KCPQSSGDSTLVKNTKWQTT 20 SLAY-screened peptide P4108 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTGTCCTCAGTCTAGTGGTGATAGTACGCTGGTCAAGAATACCAAGTGGCAGACGACTTAA KCPQSSGDSTLVKNTKWQTT* -1.331 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25759 PNMDALPFWCKAYNSSCGRL 20 SLAY-screened peptide P4109 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAACATGGATGCCTTGCCTTTCTGGTGCAAGGCCTACAACAGTTCGTGCGGTCGTCTGTAA PNMDALPFWCKAYNSSCGRL* -1.33 0.008887 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25760 VRMLPVMVDKPLTTYNNART 20 SLAY-screened peptide P4110 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCGCATGCTCCCTGTGATGGTTGATAAGCCGCTCACTACCTACAATAATGCCCGTACTTAA VRMLPVMVDKPLTTYNNART* -1.33 0.005029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25761 STRDDH 6 SLAY-screened peptide P4111 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCACCCGTGACGACCACTAGGTCCGTTGTATTGACCTTTCGTTGCCGCTCGACATCCACTAA STRDDH*VRCIDLSLPLDIH* -1.33 0.003227 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25762 NLIQPALHSYCNYVPIRSFR 20 SLAY-screened peptide P4112 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCTCATTCAGCCGGCTCTGCACTCTTATTGCAACTACGTTCCCATTCGCAGCTTTAGGTAA NLIQPALHSYCNYVPIRSFR* -1.33 0.000484 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25763 YTFLRFDYAPYSPQSRFFSV 20 SLAY-screened peptide P4113 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACGTTCCTCCGTTTTGACTACGCGCCGTACAGCCCTCAGTCCCGGTTTTTTTCCGTCTAA YTFLRFDYAPYSPQSRFFSV* -1.33 0.030304 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25764 SRMQRPHTSNSSGPKSSNWP 20 SLAY-screened peptide P4114 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGCATGCAGCGCCCTCATACTAGCAATAGTAGTGGCCCGAAGAGCTCTAACTGGCCCTAA SRMQRPHTSNSSGPKSSNWP* -1.33 0.002301 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25765 TFRCMLHDRSHT 12 SLAY-screened peptide P4115 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTTCCGCTGTATGCTGCACGACCGGAGTCATACTTAGGCCGATCGCTACATGGTCCCTTAA TFRCMLHDRSHT*ADRYMVP* -1.33 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25766 RTIG 4 SLAY-screened peptide P4116 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACCATCGGGTAGCACGCCTTGCCTACGATCCTCATGCTCACCGCTACTGCTAATTAGTAA RTIG*HALPTILMLTATAN** -1.329 0.032709 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25767 HLSWLLNFYKLIFAIIPASR 20 SLAY-screened peptide P4117 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTTAGTTGGTTGCTGAATTTCTACAAGCTTATTTTTGCGATTATCCCTGCTTCGAGGTAA HLSWLLNFYKLIFAIIPASR* -1.329 0.000075 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25768 GNSRRTMHSNCCLWHYDCLV 20 SLAY-screened peptide P4118 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCAATTCCAGGAGGACCATGCATTCCAATTGCTGTCTCTGGCATTACGATTGTCTCGTGTAA GNSRRTMHSNCCLWHYDCLV* -1.328 0.00063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25769 PRHLPSPHLHCANSNFSFVP 20 SLAY-screened peptide P4119 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGGCATCTTCCGTCTCCGCACCTGCACTGCGCGAACTCTAATTTCTCTTTCGTCCCGTAA PRHLPSPHLHCANSNFSFVP* -1.328 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25770 YHPECQYLSVPVNVIPTDMP 20 SLAY-screened peptide P4120 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCATCCTGAGTGCCAGTACCTGTCCGTGCCCGTTAACGTCATTCCGACGGATATGCCCTAA YHPECQYLSVPVNVIPTDMP* -1.328 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25771 SHRRFLGNNDYYNLHTFAFN 20 SLAY-screened peptide P4121 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCATAGGCGGTTCCTCGGGAACAACGATTACTACAATCTGCACACCTTTGCCTTTAACTAA SHRRFLGNNDYYNLHTFAFN* -1.328 0.000051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25772 TIRKSLAALFLLIAGCPPAV 20 SLAY-screened peptide P4122 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTATCCGCAAGTCGTTGGCGGCCCTGTTCCTGCTTATTGCGGGGTGCCCGCCCGCCGTCTAA TIRKSLAALFLLIAGCPPAV* -1.328 0.000071 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25773 HAMLA 5 SLAY-screened peptide P4123 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCTATGCTGGCTTAGGCCTGGCGGGCGTTCAATTTAGCAATATGCGGCGCAAGCCCTAAC HAMLA*AWRAFNLAICGASPN -1.328 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25774 TDTPTPRHAHTHVNLH 16 SLAY-screened peptide P4124 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGACACCCCGACCCCCCGCCATGCCCACACCCACGTTAATTTGCATTAGACCCCGGGTTAA TDTPTPRHAHTHVNLH*TPG* -1.328 0.002956 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25775 DHNFYFYIMLDNAPPIR 17 SLAY-screened peptide P4125 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCATAATTTCTATTTCTACATTATGCTTGACAATGCTCCTCCCATCAGGTAGTCCCATTAA DHNFYFYIMLDNAPPIR*SH* -1.328 0.00016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25776 SDSLSRSIVLCIIICLSVN 19 SLAY-screened peptide P4126 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGACAGCCTCAGTCGATCGATAGTACTTTGCATTATAATATGCCTTAGTGTTAACTGAGTA SDSLSRSIVLCIIICLSVN*V -1.327 0.010136 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25777 IY 2 SLAY-screened peptide P4127 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTACTAGTTCAGTCCCCCTCGGAATGCCTAGCGGATTCCCTAGAAGATTCAGATTCACTAA IY*FSPPRNA*RIP*KIQIH* -1.327 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25778 DSVLMRINHLATCPCMPDVH 20 SLAY-screened peptide P4128 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACAGTGTTTTGATGCGGATCAATCATCTTGCTACGTGCCCGTGCATGCCTGATGTCCATTAA DSVLMRINHLATCPCMPDVH* -1.327 0.046413 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25779 PQRRIDVMLNRFPFGRPNLE 20 SLAY-screened peptide P4129 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCAGCGGCGTATCGACGTGATGTTGAACCGGTTCCCGTTTGGCCGTCCGAACCTTGAGTAA PQRRIDVMLNRFPFGRPNLE* -1.327 0.014792 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25780 PNYTHSYRYKCVWCVIIGLGN 21 SLAY-screened peptide P4130 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAACTATACTCACAGTTACCGGTATAAGTGCGTTTGGTGCGTTATTATAGGACTAGGTAAC PNYTHSYRYKCVWCVIIGLGN -1.327 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25781 HRPHMMGFTVPYERHFYALR 20 SLAY-screened peptide P4131 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAGGCCTCACATGATGGGCTTTACTGTTCCGTACGAGAGGCATTTTTATGCGCTCCGCTAA HRPHMMGFTVPYERHFYALR* -1.327 0.029165 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25782 APLSSYLIARTRTIWTFGGQ 20 SLAY-screened peptide P4132 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCGCTTAGTAGTTATCTTATTGCTAGGACCCGTACGATTTGGACCTTCGGCGGTCAGTAA APLSSYLIARTRTIWTFGGQ* -1.326 0.000489 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25783 TSYQPHESYPFGCSPFTFAA 20 SLAY-screened peptide P4133 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCGTATCAGCCTCACGAGAGTTATCCTTTCGGGTGTTCCCCCTTTACCTTTGCCGCGTAA TSYQPHESYPFGCSPFTFAA* -1.326 0.001725 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25784 QTIRFRGRNSDITFVNP 17 SLAY-screened peptide P4134 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGACCATCCGGTTTCGGGGCCGCAACTCGGACATCACCTTTGTGAATCCTTAAGAATTAACT QTIRFRGRNSDITFVNP*ELT -1.325 0.014355 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25785 ASGVPNIVPVSSPVLHCSY 19 SLAY-screened peptide P4135 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTCTGGCGTGCCTAACATTGTTCCTGTCTCGAGTCCGGTTCTGCACTGTAGCTATTGAGTA ASGVPNIVPVSSPVLHCSY*V -1.325 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25786 GTRPDAALFHKCHTVDYSMA 20 SLAY-screened peptide P4136 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCACTCGTCCTGATGCCGCCCTTTTCCACAAGTGTCATACTGTTGACTATAGTATGGCTTAA GTRPDAALFHKCHTVDYSMA* -1.325 0.002477 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25787 VQIRLIMLTLRRLLLRLSVFN 21 SLAY-screened peptide P4137 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCAGATTCGTCTAATTATGCTGACATTACGTAGATTACTGCTGCGCTTAAGTGTTTTTAAC VQIRLIMLTLRRLLLRLSVFN -1.325 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25788 RIHRRSHLDHVLN 13 SLAY-screened peptide P4138 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTATTCACCGTAGGTCTCATCTTGACCACGTTCTTAACTAGAATTCTCGCTGCCTTGATTAA RIHRRSHLDHVLN*NSRCLD* -1.324 0.048346 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25789 CVPYMTIADLSIHHILYPLV 20 SLAY-screened peptide P4139 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTCCCGTACATGACTATCGCCGACTTGAGCATTCACCACATCCTCTATCCTCTCGTTTAA CVPYMTIADLSIHHILYPLV* -1.324 0.04407 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25790 CYHWPHDFLYTRADHTPNFS 20 SLAY-screened peptide P4140 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTACCACTGGCCTCACGATTTTCTGTACACCCGGGCGGACCACACCCCGAACTTTTCCTAA CYHWPHDFLYTRADHTPNFS* -1.324 0.03968 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25791 LSLLPAPWLPRIMLSARCPFN 21 SLAY-screened peptide P4141 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCCCTTCTGCCTGCCCCGTGGCTACCCCGGATCATGCTCTCTGCACGATGCCCCTTTAAC LSLLPAPWLPRIMLSARCPFN -1.324 0.013062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25792 ICLLIQSYGAPRHWSFALQS 20 SLAY-screened peptide P4142 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTGTCTTCTTATTCAGTCCTACGGTGCGCCCAGGCACTGGTCGTTTGCCCTGCAGTCCTAA ICLLIQSYGAPRHWSFALQS* -1.323 0.011321 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25793 CMLH 4 SLAY-screened peptide P4143 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTATGCTTCACTAGAATCCGAAGCTGTCGCTTTCCATCACCTGGCTTACGTCTAGCCCCTAA CMLH*NPKLSLSITWLTSSP* -1.323 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25794 THTPGTQLVAISHSRLPPSM 20 SLAY-screened peptide P4144 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCACACGCCTGGGACGCAGCTCGTGGCTATCTCGCACAGTCGCTTGCCGCCGAGTATGTAA THTPGTQLVAISHSRLPPSM* -1.323 0.000163 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25795 LFFSVRLRSDLTGSNISDCL 20 SLAY-screened peptide P4145 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTCTTCTCCGTCCGGCTTCGCTCCGACCTGACGGGCTCGAATATTAGCGACTGTCTCTAA LFFSVRLRSDLTGSNISDCL* -1.323 0.03841 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25796 SHPIRTWLASIVPCLLSYNR 20 SLAY-screened peptide P4146 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCATCCTATTCGTACCTGGCTCGCCAGTATTGTGCCCTGCCTTCTTTCCTATAATCGCTAA SHPIRTWLASIVPCLLSYNR* -1.323 0.010005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25797 LLYRNYTPSLNGLWYCNFPR 20 SLAY-screened peptide P4147 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTGTACCGTAACTACACTCCCTCCCTCAATGGGCTCTGGTACTGTAACTTCCCGCGTTAA LLYRNYTPSLNGLWYCNFPR* -1.322 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25798 PLPWTPRC 8 SLAY-screened peptide P4148 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTCCCCTGGACTCCTCGTTGTTAGTTCACGAGCAACTTGGCTTACAACAATATCCCCTAA PLPWTPRC*FTSNLAYNNIP* -1.322 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25799 PAHASNMRTT 10 SLAY-screened peptide P4149 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCCCACGCTTCGAACATGCGCACGACCTAGTTGCCGTCTTCCGCGTCTATTGACACCTAA PAHASNMRTT*LPSSASIDT* -1.322 0.012729 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25800 FFASALNRYN 10 SLAY-screened peptide P4150 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTTTGCGAGTGCCCTGAATCGGTACAATTAGCATGCTCTTGTTGTTCCCATTGGGCCGTAA FFASALNRYN*HALVVPIGP* -1.321 0.027588 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25801 PWTYCTYGTRNNHWDFFSQF 20 SLAY-screened peptide P4151 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGGACGTACTGTACGTACGGCACGCGGAACAACCACTGGGATTTCTTTTCGCAGTTCTAA PWTYCTYGTRNNHWDFFSQF* -1.321 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25802 TSPKAHTVFGNMSRCVPSRA 20 SLAY-screened peptide P4152 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTCTCCGAAGGCGCACACCGTTTTTGGGAACATGAGTCGCTGTGTCCCCAGCAGGGCTTAA TSPKAHTVFGNMSRCVPSRA* -1.321 0.000079 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25803 RNRPRNPAVGHSSYVERSHH 20 SLAY-screened peptide P4153 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAACCGGCCTAGGAATCCTGCCGTCGGGCACAGCAGTTACGTTGAGCGGTCCCATCATTAA RNRPRNPAVGHSSYVERSHH* -1.321 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25804 YFGPFGLPLFRWRRYPRQIN 20 SLAY-screened peptide P4154 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTTTGGTCCTTTTGGTCTTCCCCTTTTCAGGTGGCGGCGCTACCCTAGGCAGATTAACTGA YFGPFGLPLFRWRRYPRQIN* -1.321 0.000056 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25805 LLKRLLSYCCHFSPLFRPND 20 SLAY-screened peptide P4155 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTTAAGCGTTTGCTCAGCTACTGTTGTCATTTCTCCCCCTTGTTTCGTCCCAATGATTAA LLKRLLSYCCHFSPLFRPND* -1.32 0.016434 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25806 KPSIAASPPCPDTTSDRRGE 20 SLAY-screened peptide P4156 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCCGAGTATCGCTGCGTCCCCTCCGTGCCCGGATACCACGTCTGATCGTAGGGGCGAGTAA KPSIAASPPCPDTTSDRRGE* -1.32 0.008096 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25807 LSPRRSAVPKAKR 13 SLAY-screened peptide P4157 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAGCCCCCGCCGCTCCGCCGTTCCTAAGGCCAAGAGGTAGCTTTAGGCCCCGGTCGACCTG LSPRRSAVPKAKR*L*APVDL -1.32 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25808 HGHTAARYNHKSSCRMTFPL 20 SLAY-screened peptide P4158 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGGCCACACGGCGGCCCGTTATAACCATAAGAGCAGCTGTCGTATGACTTTCCCTTTGTAA HGHTAARYNHKSSCRMTFPL* -1.319 0.001719 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25809 SPVSYNAPLLRLIERTVVN 19 SLAY-screened peptide P4159 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCCCGTGTCTTACAACGCGCCCCTCCTCCGCCTGATCGAGAGGACCGTCGTTAATTAGTAA SPVSYNAPLLRLIERTVVN** -1.319 0.002004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25810 HPMNGHCGYYNVVPYHSLLV 20 SLAY-screened peptide P4160 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGATGAATGGGCATTGCGGTTATTACAATGTCGTTCCTTATCATTCTTTGCTGGTGTAA HPMNGHCGYYNVVPYHSLLV* -1.319 0.040183 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25811 PPHSPIYQHPSHFAVHRPLLT 21 SLAY-screened peptide P4161 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTCATAGCCCTATCTACCAGCATCCTTCTCATTTCGCTGTGCATCGACCACTGCTAACT PPHSPIYQHPSHFAVHRPLLT -1.319 0.01269 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25812 ARTGMLNSLTIHPGSTTDAP 20 SLAY-screened peptide P4162 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGGACCGGCATGCTGAACTCTCTTACCATTCACCCTGGGTCCACCACTGACGCCCCTTAA ARTGMLNSLTIHPGSTTDAP* -1.319 0.004089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25813 PHCPSFMDRNIMSFFTFVNN 20 SLAY-screened peptide P4163 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCACTGTCCCTCTTTCATGGACCGCAACATCATGTCGTTTTTCACGTTTGTTAATAACTAA PHCPSFMDRNIMSFFTFVNN* -1.319 0.011357 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25814 SPSGCEFSDITHRSVTVGLI 20 SLAY-screened peptide P4164 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCCAGCGGGTGTGAGTTTTCTGATATCACGCATAGGTCTGTTACCGTCGGCCTTATCTAA SPSGCEFSDITHRSVTVGLI* -1.319 0.000241 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25815 DVELPNDAHPKCPTIRFTSPN 21 SLAY-screened peptide P4165 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGTTGAGCTGCCCAATGATGCCCACCCCAAGTGCCCCACAATAAGGTTTACATCGCCTAAC DVELPNDAHPKCPTIRFTSPN -1.319 0.000297 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25816 APLSPLGSLYTSTP 14 SLAY-screened peptide P4166 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCTCTGTCCCCCCTTGGTTCCCTCTACACGAGTACTCCTTAGGCCTTCAAGACTCGCTAA APLSPLGSLYTSTP*AFKTR* -1.318 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25817 SDFNEYKSDSRRDLRSSTHK 20 SLAY-screened peptide P4167 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGATTTCAATGAGTATAAGAGTGATTCCCGGCGCGATCTCAGGAGTTCGACCCACAAGTAA SDFNEYKSDSRRDLRSSTHK* -1.318 0.046193 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25818 TRSPTHTLSLCALELLTE 18 SLAY-screened peptide P4168 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAGGTCGCCTACGCACACGCTTTCCCTTTGTGCCCTTGAATTATTAACTGAGTAAGTCGAC TRSPTHTLSLCALELLTE*VD -1.318 0.022342 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25819 PNCFNFHPYYYRVCNSLLRC 20 SLAY-screened peptide P4169 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATTGTTTTAATTTTCACCCTTATTACTACCGTGTGTGTAACAGCCTCCTCAGGTGCTAA PNCFNFHPYYYRVCNSLLRC* -1.318 0.027808 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25820 FVVNPNHPAVSIPIPSRNRI 20 SLAY-screened peptide P4170 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGTGGTCAATCCTAATCATCCCGCTGTGTCTATCCCTATCCCTTCCCGGAATCGGATTTAA FVVNPNHPAVSIPIPSRNRI* -1.318 0.009109 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25821 YWISRLSYFNQPCFYL 16 SLAY-screened peptide P4171 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGGATTAGTAGGCTTTCTTACTTCAACCAGCCGTGCTTCTACTTGTAGATTTCTCCCTAA YWISRLSYFNQPCFYL*ISP* -1.318 0.006636 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25822 CKSWVAYDSHDKSKWDEGIL 20 SLAY-screened peptide P4172 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAAGTCCTGGGTTGCCTACGACTCCCACGATAAGTCTAAGTGGGACGAGGGTATTCTTTAA CKSWVAYDSHDKSKWDEGIL* -1.318 0.000984 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25823 LPHCAVPSYRLVGTNYSFPF 20 SLAY-screened peptide P4173 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCCCATTGTGCTGTCCCGTCCTACCGCCTCGTCGGCACTAACTACAGCTTTCCCTTTTAA LPHCAVPSYRLVGTNYSFPF* -1.318 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25824 DHLPVVTLYSMLSCHSYCLL 20 SLAY-screened peptide P4174 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCATCTGCCTGTGGTCACGCTGTATAGTATGCTCTCCTGCCACTCCTATTGCCTCCTCTAA DHLPVVTLYSMLSCHSYCLL* -1.317 0.001614 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25825 TVGHIAHTLITVANTTYYVS 20 SLAY-screened peptide P4175 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTGGGCCATATCGCGCATACCTTGATTACGGTTGCTAACACTACGTATTATGTCTCGTAA TVGHIAHTLITVANTTYYVS* -1.317 0.001245 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25826 PTQSGTLNTFHHFVWNTKRS 20 SLAY-screened peptide P4176 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACTCAGAGCGGTACCCTCAATACCTTTCACCACTTTGTCTGGAATACTAAGCGCTCCTAA PTQSGTLNTFHHFVWNTKRS* -1.317 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25827 SPDTRMTRPTPLSFYAHLRT 20 SLAY-screened peptide P4177 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCCGGACACGCGGATGACCCGGCCGACCCCTCTGAGTTTCTATGCGCATCTGCGCACCTAA SPDTRMTRPTPLSFYAHLRT* -1.317 0.023457 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25828 GKDSCQFCILHFNAIYPYLI 20 SLAY-screened peptide P4178 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCAAGGACTCTTGCCAGTTCTGTATCCTTCACTTTAATGCTATCTACCCGTACCTGATTTAA GKDSCQFCILHFNAIYPYLI* -1.317 0.004433 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25829 HHASNSRLLPDSPDSPLCRR 20 SLAY-screened peptide P4179 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCATGCTTCCAACTCCAGGCTTCTCCCCGACTCCCCTGACAGCCCGTTGTGTCGTCGCTAA HHASNSRLLPDSPDSPLCRR* -1.317 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25830 CWRRRPYPLKLFWM 14 SLAY-screened peptide P4180 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTGGCGCCGCCGGCCCTACCCTCTCAAGCTCTTTTGGATGTAGCATCGCAGTCCCTTTTAA CWRRRPYPLKLFWM*HRSPF* -1.316 0.001285 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25831 TPTYCSTDDCSARRCVIYNI 20 SLAY-screened peptide P4181 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCCCACCTATTGCTCTACCGATGATTGTTCGGCCCGCCGTTGCGTTATTTACAATATCTAA TPTYCSTDDCSARRCVIYNI* -1.316 0.003041 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25832 RRFGPRPCTPPPNYMVLVTT 20 SLAY-screened peptide P4182 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGAGGTTTGGCCCGCGCCCTTGCACCCCTCCGCCCAACTACATGGTCCTGGTCACCACGTAA RRFGPRPCTPPPNYMVLVTT* -1.316 0.011794 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25833 SCPHTAMDSRFIANRFHAVC 20 SLAY-screened peptide P4183 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTGCCCGCATACGGCGATGGATTCCAGGTTTATTGCCAACCGGTTCCACGCCGTTTGCTAA SCPHTAMDSRFIANRFHAVC* -1.315 0.002232 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25834 ALPSIHCARSLHHPATNDSA 20 SLAY-screened peptide P4184 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCTCCCTTCCATTCACTGTGCCCGCAGTCTGCATCATCCGGCTACCAACGACTCCGCCTAA ALPSIHCARSLHHPATNDSA* -1.315 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25835 SRNWAHMLSQVNQMKNMRGLT 21 SLAY-screened peptide P4185 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAGGAACTGGGCTCACATGCTCTCGCAGGTTAATCAGATGAAGAATATGAGAGGATTAACT SRNWAHMLSQVNQMKNMRGLT -1.314 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25836 HAYPTLPHMRVRDNTLHSTL 20 SLAY-screened peptide P4186 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCCTACCCTACCCTGCCCCACATGCGCGTCCGGGACAATACTCTGCACTCTACCCTTTAA HAYPTLPHMRVRDNTLHSTL* -1.314 0.000058 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25837 SRDAPGSYSHEGCII 15 SLAY-screened peptide P4187 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGTGACGCCCCCGGCAGCTACAGCCACGAGGGCTGCATTATTTAGAATGGGGTCTCTTAA SRDAPGSYSHEGCII*NGVS* -1.314 0.021424 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25838 RILFVPCYLPYLCCMNDIIV 20 SLAY-screened peptide P4188 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGATTCTCTTTGTCCCTTGCTACCTGCCTTACCTCTGCTGTATGAACGACATTATTGTGTAA RILFVPCYLPYLCCMNDIIV* -1.314 0.034187 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25839 ATCGLPYQPFFPYTWNGSYL 20 SLAY-screened peptide P4189 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACTTGCGGTCTGCCCTATCAGCCCTTCTTCCCTTACACCTGGAACGGCTCTTACCTTTAA ATCGLPYQPFFPYTWNGSYL* -1.314 0.000355 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25840 PAFHPTATVPWS 12 SLAY-screened peptide P4190 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCCTTTCATCCGACTGCGACTGTGCCCTGGTCCTAGAGTAACACCCGTTTTCGTTAGTAA PAFHPTATVPWS*SNTRFR** -1.314 0.000071 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25841 TSISS 5 SLAY-screened peptide P4191 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCTATCTCCTCCTAGAGTATCAATTATCATATTATTTTTTGGTACTCCGGTTTGATCTAA TSISS*SINYHIIFWYSGLI* -1.313 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25842 YCPPHLTHLFQINYT 15 SLAY-screened peptide P4192 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGTCCTCCGCACTTGACTCACCTCTTCCAGATCAATTACACCTAGTTCAGCGATGTGTAA YCPPHLTHLFQINYT*FSDV* -1.313 0.010727 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25843 HLSSRRAWRVYVSPSSKYDH 20 SLAY-screened peptide P4193 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTTTCCTCCCGGCGCGCGTGGCGTGTCTATGTTAGCCCCTCTTCGAAGTACGATCACTAA HLSSRRAWRVYVSPSSKYDH* -1.313 0.016461 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25844 YTSSCIIMDPAANSETAAVV 20 SLAY-screened peptide P4194 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATACTAGCTCGTGCATTATCATGGATCCGGCGGCGAACAGCGAGACGGCTGCCGTCGTTTAA YTSSCIIMDPAANSETAAVV* -1.313 0.000162 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25845 LPRHRGRCCINILHCRAKF 19 SLAY-screened peptide P4195 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCGCGTCACCGGGGCCGTTGCTGCATTAATATCCTTCACTGCCGCGCGAAGTTTTAACTG LPRHRGRCCINILHCRAKF*L -1.313 0.00016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25846 FSASPDAGHLPGSSSNTLHD 20 SLAY-screened peptide P4196 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTCTGCTAGCCCGGACGCCGGCCACCTGCCTGGTTCGTCGAGTAATACCCTTCACGATTAA FSASPDAGHLPGSSSNTLHD* -1.313 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25847 VHGPPSRPAHVLMTLYYLSN 20 SLAY-screened peptide P4197 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCACGGGCCGCCTAGCCGGCCCGCGCATGTGCTCATGACCCTTTATTATCTCAGCAATTAA VHGPPSRPAHVLMTLYYLSN* -1.313 0.031918 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25848 LLHPCVDYRWMGTYYPLVIW 20 SLAY-screened peptide P4198 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTCCATCCCTGCGTCGACTATAGGTGGATGGGTACTTACTATCCCTTGGTGATTTGGTAA LLHPCVDYRWMGTYYPLVIW* -1.313 0.003465 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25849 PSSLPCMCSINCPFYNFTIY 20 SLAY-screened peptide P4199 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCTTCTCTGCCGTGCATGTGCAGTATTAATTGCCCTTTTTATAATTTCACGATTTATTAA PSSLPCMCSINCPFYNFTIY* -1.313 0.033522 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25850 PNYHSESTGHSRLYRTHP 18 SLAY-screened peptide P4200 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATTACCATAGTGAGAGCACCGGGCACAGTCGTCTTTACCGCACGCACCCCTAGTCGTAA PNYHSESTGHSRLYRTHP*S* -1.312 0.044487 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25851 LHQGSTAEGPSFRGKY 16 SLAY-screened peptide P4201 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCATCAGGGGAGTACTGCTGAGGGGCCTTCCTTTAGGGGTAAGTACTAGCAGTCCTCCTAA LHQGSTAEGPSFRGKY*QSS* -1.312 0.030941 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25852 GESQHQPDSPVLPHSPYLLC 20 SLAY-screened peptide P4202 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGAGTCTCAGCATCAGCCTGACTCCCCCGTTCTGCCGCATTCCCCTTATTTGCTCTGTTAA GESQHQPDSPVLPHSPYLLC* -1.312 0.03431 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25853 CHSQPSDSPVYHALDIDYFL 20 SLAY-screened peptide P4203 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCATTCCCAGCCCAGTGACTCTCCCGTCTATCATGCGCTTGATATTGACTACTTCTTGTAA CHSQPSDSPVYHALDIDYFL* -1.312 0.011086 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25854 THSST 5 SLAY-screened peptide P4204 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCACTCTTCTACCTAGCACCTGGATAATAGTTGTTAGTTTTGCAAGCACACCGCTTTTTAA THSST*HLDNSC*FCKHTAF* -1.312 0.04353 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25855 PPPVIIRTNDANHCFATVLH 20 SLAY-screened peptide P4205 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCGCCTGTGATCATCCGCACTAATGATGCCAATCATTGCTTTGCTACGGTTCTTCATTAA PPPVIIRTNDANHCFATVLH* -1.312 0.00005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25856 SALVSSRENLPIHSHYLNRP 20 SLAY-screened peptide P4206 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCCCTGGTCTCTAGTCGTGAGAATTTGCCTATCCACTCCCATTACCTGAATCGTCCTTAA SALVSSRENLPIHSHYLNRP* -1.311 0.000441 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25857 PLADILCSDPYVSNHEYTIT 20 SLAY-screened peptide P4207 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTGGCCGATATCCTTTGTAGTGACCCCTACGTGAGTAATCACGAGTATACGATTACCTAA PLADILCSDPYVSNHEYTIT* -1.311 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25858 LVAHLGNS 8 SLAY-screened peptide P4208 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGTTGCCCACCTTGGTAACTCTTAGGATTCTTCGGCTAAGCCCAAGGCCTCGTTGATCTAA LVAHLGNS*DSSAKPKASLI* -1.311 0.00077 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25859 FPLMGFKYYYPCYTRSPSLY 20 SLAY-screened peptide P4209 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCGTTGATGGGCTTTAAGTATTATTATCCTTGTTACACCCGTTCTCCGTCTCTTTATTAA FPLMGFKYYYPCYTRSPSLY* -1.311 0.001035 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25860 PVSPGRHVTIDCRTTVYRPP 20 SLAY-screened peptide P4210 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTCAGCCCCGGGCGCCATGTTACGATTGACTGCAGGACGACCGTGTACCGCCCTCCGTAA PVSPGRHVTIDCRTTVYRPP* -1.311 0.03155 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25861 PHGWICTPSRLNYYLYSAVI 20 SLAY-screened peptide P4211 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCATGGCTGGATTTGCACCCCCAGTCGGTTGAACTATTACCTCTATTCTGCTGTCATCTAA PHGWICTPSRLNYYLYSAVI* -1.311 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25862 FIDERPLFHMA 11 SLAY-screened peptide P4212 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTATCGACGAGCGCCCCCTGTTCCATATGGCCTAGTATTTTTGCAACCCGCTTGCCAGGTAA FIDERPLFHMA*YFCNPLAR* -1.311 0.000321 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25863 NLSSTMARGTCSALRYLDVY 20 SLAY-screened peptide P4213 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCTTTCGAGTACTATGGCTCGCGGGACTTGTAGCGCTCTCCGTTATCTTGATGTTTACTAA NLSSTMARGTCSALRYLDVY* -1.31 0.00502 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25864 PCAFSSPLDALGFHGPYYVV 20 SLAY-screened peptide P4214 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTGCCTTCTCTTCCCCGCTCGATGCTTTGGGTTTCCACGGTCCCTATTATGTTGTCTAA PCAFSSPLDALGFHGPYYVV* -1.31 0.002233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25865 TTLDPLLPDFVPTTCDNSGKF 21 SLAY-screened peptide P4215 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACCCTGGATCCCTTGCTGCCCGACTTCGTTCCGACTACCTGCGATAATTCTGGCAAGTTT TTLDPLLPDFVPTTCDNSGKF -1.31 0.003326 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25866 PYGLPFCITYALAALTDRRM 20 SLAY-screened peptide P4216 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTACGGCCTCCCCTTTTGTATCACGTATGCGTTGGCGGCCCTCACCGACCGCCGTATGTAA PYGLPFCITYALAALTDRRM* -1.31 0.027752 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25867 WFDSYPYIPCRRCCRYLIRA 20 SLAY-screened peptide P4217 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTTTGACAGCTACCCTTATATTCCTTGTCGCCGCTGCTGTCGTTATCTCATTCGTGCCTAA WFDSYPYIPCRRCCRYLIRA* -1.31 0.00026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25868 CLHSTNHVPKHWSAVPLSFN 20 SLAY-screened peptide P4218 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTGCATAGCACTAATCATGTGCCTAAGCACTGGAGCGCTGTGCCCCTTAGTTTCAATTAA CLHSTNHVPKHWSAVPLSFN* -1.31 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25869 STAKSHISIPMCSFYAIKSS 20 SLAY-screened peptide P4219 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACCGCTAAGTCTCACATTTCTATCCCCATGTGTAGCTTCTACGCCATCAAGTCTTCTTAA STAKSHISIPMCSFYAIKSS* -1.31 0.001639 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25870 PILTTRRRALFYSARIPAIF 20 SLAY-screened peptide P4220 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATCTTGACCACTAGGCGCCGTGCCTTGTTCTACTCGGCCCGCATTCCCGCCATCTTTTAA PILTTRRRALFYSARIPAIF* -1.309 0.00022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25871 LELYSSRAGSLLDAQASGCLT 21 SLAY-screened peptide P4221 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGGCTTGAACTTTACTCATCACGTGCAGGGTCACTTCTTGATGCCCAGGCCTCCGGATGCCTAACT LELYSSRAGSLLDAQASGCLT -1.309 0.00208 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25872 HGVRIMYNNSVPGIPSGAFFN 21 SLAY-screened peptide P4222 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGGCGTTCGCATTATGTATAATAACAGTGTACCTGGAATACCTTCGGGAGCTTTCTTTAAC HGVRIMYNNSVPGIPSGAFFN -1.309 0.008688 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25873 PSPYFSTATQYFCHYSFDYA 20 SLAY-screened peptide P4223 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGTCCCTACTTCAGTACCGCTACGCAGTATTTCTGCCACTACAGCTTTGACTATGCCTAA PSPYFSTATQYFCHYSFDYA* -1.309 0.000058 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25874 LADRCKIGPFFNDMNHALSR 20 SLAY-screened peptide P4224 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCCGACCGTTGCAAGATCGGCCCGTTTTTCAACGACATGAATCACGCGCTCTCCCGCTAA LADRCKIGPFFNDMNHALSR* -1.308 0.001963 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25875 VETFDSSDRVPFHTANT 17 SLAY-screened peptide P4225 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGAGACCTTCGACTCTTCTGACCGTGTTCCCTTCCACACCGCCAACACCTAGGCTATCTAA VETFDSSDRVPFHTANT*AI* -1.308 0.048067 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25876 LPNGLHHAVFEIWSTCIIYD 20 SLAY-screened peptide P4226 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCCAACGGCCTCCATCATGCCGTCTTCGAGATTTGGTCCACCTGCATCATTTACGACTAA LPNGLHHAVFEIWSTCIIYD* -1.308 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25877 VPNHHPVVVCE 11 SLAY-screened peptide P4227 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCCCAATCACCACCCCGTTGTGGTTTGTGAGTAGAATTCTCCTCTCGCGTGTGATAATTAA VPNHHPVVVCE*NSPLACDN* -1.308 0.000145 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25878 TRRARRTHRVHAAVLNSPTP 20 SLAY-screened peptide P4228 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCGCCGCGCCCGTCGCACTCATCGGGTTCATGCCGCGGTCCTCAACTCGCCCACCCCTTAA TRRARRTHRVHAAVLNSPTP* -1.308 0.000457 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25879 GTTFICNIPHSFNLHRSC 18 SLAY-screened peptide P4229 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCACTACCTTTATCTGTAACATTCCTCATTCTTTCAATTTGCATCGGTCTTGTTAGCAGTAA GTTFICNIPHSFNLHRSC*Q* -1.307 0.000077 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25880 SCA 3 SLAY-screened peptide P4230 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGCGCATAATAACGCGCCTCTGAAGTACCGCGACGCCAATTTTCCGTCTGCCCTTACCTA SCA**RASEVPRRQFSVCPYL -1.307 0.000985 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25881 CHTAYNLFRPRPSSGAARLE 20 SLAY-screened peptide P4231 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCATACCGCTTACAATCTGTTCCGCCCCCGTCCGTCCTCCGGCGCTGCTCGGTTGGAGTAA CHTAYNLFRPRPSSGAARLE* -1.307 0.000032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25882 PRSDIATMQAPESISFPPGY 20 SLAY-screened peptide P4232 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGCTCCGACATCGCTACTATGCAGGCCCCCGAGAGTATCAGTTTCCCCCCGGGCTATTAA PRSDIATMQAPESISFPPGY* -1.307 0.022858 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25883 LSRPINFPRP 10 SLAY-screened peptide P4233 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGAGTCGTCCCATTAACTTTCCGCGCCCCTAGGTTCAGAATAAGTCCTACACTTTTAGTTAA LSRPINFPRP*VQNKSYTFS* -1.307 0.000038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25884 CCTTWWNHCLLSHPFKNTSY 20 SLAY-screened peptide P4234 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTGTACTACTTGGTGGAACCATTGCCTGCTTAGTCACCCCTTTAAGAATACCAGCTACTAA CCTTWWNHCLLSHPFKNTSY* -1.307 0.043469 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25885 TVRHTISLLRQRLNRFLYRV 20 SLAY-screened peptide P4235 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTCCGGCACACTATTTCGTTGCTCCGTCAGCGGCTTAACCGTTTTTTGTACCGCGTTTAA TVRHTISLLRQRLNRFLYRV* -1.307 0.04353 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25886 RAG 3 SLAY-screened peptide P4236 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCCGGGTAGCTTACTATTACCTAGGCTACTAGCACGAGGCATAGTTCTAATATTGGTTAA RAG*LTIT*ATSTRHSSNIG* -1.307 0.007861 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25887 PDFRLVCYHPERL 13 SLAY-screened peptide P4237 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGACTTCCGTCTTGTTTGTTACCACCCCGAGCGTCTCTAGGCCAGGAATCTGAGCAAGTAA PDFRLVCYHPERL*ARNLSK* -1.307 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25888 CDSPYYDIPLRWSIL 15 SLAY-screened peptide P4238 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGACTCGCCGTACTACGATATTCCGCTCCGTTGGTCGATTCTTTAGTTTCGGAGCGACTAA CDSPYYDIPLRWSIL*FRSD* -1.307 0.001914 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25889 CVTL 4 SLAY-screened peptide P4239 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTTACCTTGTAGCGTTCCATCACGTAGCCCGACTTCGTTTACATTTATACTATTAGTTAA CVTL*RSIT*PDFVYIYTIS* -1.307 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25890 RGKHARAYRSWPWIYVLFAM 20 SLAY-screened peptide P4240 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGGCAAGCATGCCCGGGCTTACCGGAGTTGGCCCTGGATTTATGTTCTGTTCGCTATGTAA RGKHARAYRSWPWIYVLFAM* -1.307 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25891 PIHFLAGPGYL 11 SLAY-screened peptide P4241 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATTCACTTTTTGGCCGGTCCTGGCTACCTCTAGTTTACCTTTGCTTATAAGAATTGCTAA PIHFLAGPGYL*FTFAYKNC* -1.306 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25892 LCTAFSVYLAQSLKALRHILT 21 SLAY-screened peptide P4242 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTGCACTGCTTTTTCCGTGTACCTGGCTCAGAGTCTCAAGGCTCTGCGCCATATATTAACT LCTAFSVYLAQSLKALRHILT -1.306 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25893 LFVPLHSHTPVWEPIYANSV 20 SLAY-screened peptide P4243 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTTGTGCCTCTCCATTCCCACACTCCGGTCTGGGAGCCCATCTACGCCAACTCTGTTTAA LFVPLHSHTPVWEPIYANSV* -1.306 0.00967 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25894 HHHCNAYHLRYYHGIPVLRS 20 SLAY-screened peptide P4244 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCATCATTGCAACGCTTATCACCTCCGGTACTACCACGGGATCCCCGTCCTGCGTTCGTAA HHHCNAYHLRYYHGIPVLRS* -1.306 0.011325 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25895 SQCTNYPDYFLLSYASLGTT 20 SLAY-screened peptide P4245 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCAGTGTACTAACTATCCTGATTACTTTCTTCTGTCTTATGCTTCCCTTGGGACTACGTAA SQCTNYPDYFLLSYASLGTT* -1.306 0.000042 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25896 QTQPPHDSEEADKCLYPVII 20 SLAY-screened peptide P4246 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGACCCAGCCGCCTCATGACAGCGAGGAGGCGGATAAGTGCTTGTATCCCGTGATTATTTAA QTQPPHDSEEADKCLYPVII* -1.306 0.000015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25897 HSQRCGMD 8 SLAY-screened peptide P4247 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAGCCAGCGCTGTGGCATGGATTAGATTCAGATTAATTACTCCGACATCGGTATTTCGTAA HSQRCGMD*IQINYSDIGIS* -1.306 0.000846 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25898 ETRLHNPRISHNNYWWFMLF 20 SLAY-screened peptide P4248 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGACTCGGCTGCATAATCCTCGCATTAGCCACAATAACTATTGGTGGTTCATGCTTTTTTAA ETRLHNPRISHNNYWWFMLF* -1.306 0.000046 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25899 TLSTWDLDHWQCHPRFTTTY 20 SLAY-screened peptide P4249 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTGAGCACTTGGGACCTTGACCACTGGCAGTGCCATCCCAGGTTTACTACCACCTATTAA TLSTWDLDHWQCHPRFTTTY* -1.305 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25900 LPSP 4 SLAY-screened peptide P4250 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCGTCGCCCTAGCCGGCCCCCGGCGAGCGCCGCAGTGACGTTCGTCATAACCCCTACTAA LPSP*PAPGERRSDVRHNPY* -1.305 0.000504 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25901 YCFSLMVVIRSSRLTLRFRCN 21 SLAY-screened peptide P4251 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTGTTTCAGCTTGATGGTGGTCATTAGGTCATCACGTCTTACTCTGAGGTTCCGATGTAAC YCFSLMVVIRSSRLTLRFRCN -1.305 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25902 PSTHHTQNCYEGLVIDYHER 20 SLAY-screened peptide P4252 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGCACGCATCACACGCAGAACTGCTATGAGGGCCTTGTTATCGACTACCACGAGCGCTAA PSTHHTQNCYEGLVIDYHER* -1.305 0.040617 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25903 DHRIVTLLTLCLVLILLTIRN 21 SLAY-screened peptide P4253 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCATCGTATTGTAACGCTTTTGACTCTATGCCTAGTATTAATTCTTCTAACTATACGTAAC DHRIVTLLTLCLVLILLTIRN -1.305 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25904 ILNRNPYNAPMNLNDN 16 SLAY-screened peptide P4254 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTTAACCGCAACCCCTATAACGCGCCCATGAACCTTAACGATAACTAGTGGGAGACGTAA ILNRNPYNAPMNLNDN*WET* -1.304 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25905 LRLLPCPIPNPYVYLAFLGN 20 SLAY-screened peptide P4255 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCGGTTGCTCCCCTGCCCTATTCCCAACCCCTACGTTTATCTTGCGTTTCTCGGCAACTAA LRLLPCPIPNPYVYLAFLGN* -1.304 0.000578 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25906 CNMLLPYLLNGQIYLSYNYH 20 SLAY-screened peptide P4256 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAATATGCTGCTGCCGTACCTGCTTAATGGCCAGATCTATCTTAGCTATAACTACCACTAA CNMLLPYLLNGQIYLSYNYH* -1.304 0.006412 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25907 TPFNYDDLRTIVNAISPFSP 20 SLAY-screened peptide P4257 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCGTTTAACTATGACGATCTCCGCACGATCGTGAATGCCATTTCCCCCTTTAGCCCCTAA TPFNYDDLRTIVNAISPFSP* -1.303 0.025142 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25908 NANDPVVPHIRLPTISYILL 20 SLAY-screened peptide P4258 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGCCAATGATCCGGTGGTCCCTCATATCAGGCTGCCTACTATTTCGTATATCCTTCTTTAA NANDPVVPHIRLPTISYILL* -1.303 0.000325 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25909 DDFLSTFYMLAIATLLHMRP 20 SLAY-screened peptide P4259 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGATTTCCTTAGCACGTTTTATATGCTCGCTATCGCTACTCTTCTTCATATGCGCCCTTAA DDFLSTFYMLAIATLLHMRP* -1.303 0.000714 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25910 IYPFRPFAYTPPRLQPGPSS 20 SLAY-screened peptide P4260 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTACCCGTTCCGCCCTTTCGCCTATACGCCTCCCCGCCTCCAGCCGGGGCCCTCCTCTTAA IYPFRPFAYTPPRLQPGPSS* -1.303 0.004067 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25911 AHIGDAMLSFRHHKTSPVHG 20 SLAY-screened peptide P4261 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCACATCGGGGACGCCATGCTTTCCTTTCGCCATCATAAGACTAGTCCCGTCCACGGGTAA AHIGDAMLSFRHHKTSPVHG* -1.303 0.038908 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25912 RLKHRSSSQAWYSQIVAFIR 20 SLAY-screened peptide P4262 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCTTAAGCACCGGTCTAGTAGTCAGGCGTGGTACTCCCAGATTGTCGCGTTTATTCGCTAA RLKHRSSSQAWYSQIVAFIR* -1.303 0.016741 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25913 RAYYI 5 SLAY-screened peptide P4263 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCTTATTACATCTAGGCCTACTGTTTGCACATTCCGAGGAACGGCCTGATGGGCTAACTG RAYYI*AYCLHIPRNGLMG*L -1.303 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25914 APGISCMLRGTPVVYYSRNA 20 SLAY-screened peptide P4264 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCCGGGATTTCGTGTATGCTTCGCGGGACCCCGGTTGTTTATTACAGTAGGAATGCGTAA APGISCMLRGTPVVYYSRNA* -1.303 0.00002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25915 PHLYSLYHKSLCSGISLYYF 20 SLAY-screened peptide P4265 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCACCTGTATTCGCTCTATCACAAGAGTCTTTGTTCTGGTATTTCCCTTTATTATTTCTAA PHLYSLYHKSLCSGISLYYF* -1.303 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25916 YLPSFKRSSIHCVPYDEHH 19 SLAY-screened peptide P4266 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTTCCTTCGTTCAAGAGGAGCTCCATCCATTGTGTGCCGTACGATGAGCACCACTAACTG YLPSFKRSSIHCVPYDEHH*L -1.303 0.0002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25917 VSRLSLAIRPACQSCAQHSR 20 SLAY-screened peptide P4267 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTCCAGGCTGTCCCTCGCTATTCGTCCCGCGTGCCAGTCCTGTGCCCAGCATAGCCGTTAA VSRLSLAIRPACQSCAQHSR* -1.303 0.00708 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25918 NTLVTSGHVTRAHALFLRVC 20 SLAY-screened peptide P4268 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACCCTTGTCACCTCGGGCCATGTTACTCGTGCTCATGCCCTCTTCCTTCGCGTTTGCTAA NTLVTSGHVTRAHALFLRVC* -1.303 0.044007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25919 PPPCVLTTHA 10 SLAY-screened peptide P4269 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTCCCTGTGTCCTGACGACCCACGCCTAGGATACCCCTCTGGCGCCTCGGCGTATCTAA PPPCVLTTHA*DTPLAPRRI* -1.302 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25920 LNATTNNPINDIDCDTTSMP 20 SLAY-screened peptide P4270 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAACGCCACCACCAACAACCCCATCAATGACATCGATTGTGATACGACGAGTATGCCCTAA LNATTNNPINDIDCDTTSMP* -1.302 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25921 PRDAHLFYPYGFYSYL 16 SLAY-screened peptide P4271 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGGGATGCTCATCTTTTCTATCCTTATGGTTTCTATTCCTACTTGTAGGTCGACTATTAA PRDAHLFYPYGFYSYL*VDY* -1.302 0.006183 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25922 SLSR 4 SLAY-screened peptide P4272 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCTCTCCCGCTAGTCGGGCAGCGGGCGCTACGTCATGCCGTGTAGCGTTTATACTTATTAA SLSR*SGSGRYVMPCSVYTY* -1.302 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25923 SLSTYGIHVPGYCLPINTMW 20 SLAY-screened peptide P4273 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCTTTCCACGTATGGCATCCATGTTCCTGGCTATTGCCTCCCCATCAACACTATGTGGTAA SLSTYGIHVPGYCLPINTMW* -1.301 0.000775 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25924 HAYTARVTPRTAETYHPHAS 20 SLAY-screened peptide P4274 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCCTATACCGCTCGCGTGACCCCGCGTACTGCGGAGACTTATCATCCGCACGCCAGCTAA HAYTARVTPRTAETYHPHAS* -1.301 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25925 LDKFYLPQAFSRIESTPICH 20 SLAY-screened peptide P4275 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGACAAGTTTTATTTGCCCCAGGCTTTCTCGCGCATTGAGTCTACGCCTATTTGTCACTAA LDKFYLPQAFSRIESTPICH* -1.301 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25926 PSQIVSYIYSPWADWHTLRQ 20 SLAY-screened peptide P4276 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCGCAGATCGTTTCTTACATCTATTCTCCCTGGGCGGATTGGCATACCCTTCGCCAGTAA PSQIVSYIYSPWADWHTLRQ* -1.301 0.000608 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25927 PFSYPMYYTTLYNII 15 SLAY-screened peptide P4277 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTTAGTTACCCGATGTATTATACCACCCTTTATAACATTATTTAGGCCGACGGTAACTAA PFSYPMYYTTLYNII*ADGN* -1.301 0.000119 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25928 PTYTRQYDRTHEPVYYFYLL 20 SLAY-screened peptide P4278 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACTTACACCAGGCAGTACGATCGTACGCATGAGCCGGTTTATTATTTCTACCTGCTCTAA PTYTRQYDRTHEPVYYFYLL* -1.301 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25929 RMLYFYWADDSFKIRPCAII 20 SLAY-screened peptide P4279 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTATGTTGTACTTTTACTGGGCGGATGACTCCTTTAAGATCCGCCCGTGCGCTATCATTTAA RMLYFYWADDSFKIRPCAII* -1.301 0.005614 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25930 SWSSTWIKFPVRFSGPTCRV 20 SLAY-screened peptide P4280 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTGGTCGTCCACGTGGATCAAGTTTCCGGTTCGCTTTTCCGGGCCCACGTGCCGCGTCTAA SWSSTWIKFPVRFSGPTCRV* -1.301 0.032659 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25931 WFARGIPCTFV 11 SLAY-screened peptide P4281 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTTCGCCCGGGGCATTCCGTGTACTTTCGTGTAGGTTGCCGACTTCACGGGCAACTCTTAA WFARGIPCTFV*VADFTGNS* -1.3 0.035738 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25932 ARCTIHRILPAGHKIN 16 SLAY-screened peptide P4282 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGGTGCACCATCCACCGTATTTTGCCTGCCGGTCATAAGATTAATTAGGCCTAGAAGAAC ARCTIHRILPAGHKIN*A*KN -1.3 0.007877 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25933 VCWQCHTVCPKRTDNWPWLV 20 SLAY-screened peptide P4283 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTGTTGGCAGTGCCATACCGTGTGCCCGAAGCGTACCGATAACTGGCCTTGGCTTGTTTAA VCWQCHTVCPKRTDNWPWLV* -1.3 0.000831 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25934 AYHMAVLRQPSNDPYKHNAT 20 SLAY-screened peptide P4284 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTATCACATGGCCGTGCTCAGGCAGCCTTCTAATGACCCTTATAAGCACAACGCTACTTAA AYHMAVLRQPSNDPYKHNAT* -1.3 0.030205 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25935 NTPTDAAHNRMYSCVPISST 20 SLAY-screened peptide P4285 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACCCCCACTGACGCCGCTCATAACCGCATGTACTCGTGCGTGCCTATTTCTAGCACCTAA NTPTDAAHNRMYSCVPISST* -1.3 0.033596 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25936 YSLSRHIVCSSTRRFDSFST 20 SLAY-screened peptide P4286 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTCCTTGTCTCGCCACATCGTCTGTTCGAGCACTCGCAGGTTTGATTCCTTCAGCACTTAA YSLSRHIVCSSTRRFDSFST* -1.299 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25937 DTTWR 5 SLAY-screened peptide P4287 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACACTACTTGGAGGTAGGTGTCCAAGCGCGCCCAGCCCCATTAGCTTGGTACCCCTTTCTAA DTTWR*VSKRAQPH*LGTPF* -1.299 0.000292 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25938 TGRRLAKLTVLPLTSRQSRPL 21 SLAY-screened peptide P4288 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGGGCGCCGGCTTGCTAAGCTTACCGTCCTTCCGCTCACTAGTCGGCAGTCACGACCTCTA TGRRLAKLTVLPLTSRQSRPL -1.299 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25939 TALGLPPTVSFRLSKFSHAC 20 SLAY-screened peptide P4289 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCCCTGGGCTTGCCCCCGACTGTCTCGTTCCGCCTTAGCAAGTTTAGCCACGCTTGTTAA TALGLPPTVSFRLSKFSHAC* -1.299 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25940 HLSLRAVLLQRIPQFNAFIL 20 SLAY-screened peptide P4290 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTTAGCCTCAGGGCCGTCCTTCTGCAGCGTATCCCTCAGTTTAACGCTTTTATTCTTTAA HLSLRAVLLQRIPQFNAFIL* -1.299 0.043255 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25941 PSYAPYSWTCFGPTYLNALI 20 SLAY-screened peptide P4291 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCCTATGCCCCTTATTCTTGGACCTGCTTTGGGCCGACTTACCTTAATGCTCTTATTTAA PSYAPYSWTCFGPTYLNALI* -1.299 0.047997 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25942 AHFCIDCTFHHDYK 14 SLAY-screened peptide P4292 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCATTTCTGCATTGATTGCACGTTCCACCACGATTATAAGTAGCTGCTGCGACCAGCTAAC AHFCIDCTFHHDYK*LLRPAN -1.298 0.00049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25943 RKTGLRARSVPNDRHALATV 20 SLAY-screened peptide P4293 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGAAGACTGGGCTGCGCGCGCGTTCCGTCCCGAACGATCGCCATGCGCTCGCCACCGTTTAA RKTGLRARSVPNDRHALATV* -1.298 0.001717 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25944 RGPATLWGHFQNPISLLSVN 20 SLAY-screened peptide P4294 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGGTCCCGCGACGCTCTGGGGGCACTTTCAGAACCCTATTTCTCTGTTGTCCGTGAATTAA RGPATLWGHFQNPISLLSVN* -1.298 0.000048 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25945 LVNSRAVLSRTLPIQIRKPP 20 SLAY-screened peptide P4295 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTCAATTCGCGCGCTGTTCTCTCCAGGACTTTGCCCATTCAGATTCGGAAGCCCCCGTAA LVNSRAVLSRTLPIQIRKPP* -1.298 0.000031 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25946 SRWSIMSRSHTDRTHPPIYP 20 SLAY-screened peptide P4296 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGCTGGTCGATTATGTCGCGCTCTCATACTGATCGCACTCACCCCCCTATTTATCCGTAA SRWSIMSRSHTDRTHPPIYP* -1.298 0.000399 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25947 RCESTYWRTGHYTSTHTIHK 20 SLAY-screened peptide P4297 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGTGAGAGCACTTATTGGCGTACCGGGCACTACACGTCGACTCATACTATCCATAAGTAA RCESTYWRTGHYTSTHTIHK* -1.297 0.002976 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25948 ANYTDFFICFLGAFRIL 17 SLAY-screened peptide P4298 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAATTACACCGACTTCTTCATCTGCTTTCTAGGCGCATTTCGAATACTCTGACTTTCTAAC ANYTDFFICFLGAFRIL*LSN -1.297 0.017517 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25949 SYHNNCDVRAYELPVPTWHF 20 SLAY-screened peptide P4299 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTACCACAACAACTGTGATGTTCGTGCTTATGAGCTGCCTGTTCCTACCTGGCATTTTTAA SYHNNCDVRAYELPVPTWHF* -1.297 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25950 HSLRSDPEPRPRTTPCICPN 20 SLAY-screened peptide P4300 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCCTTGCGTAGTGATCCTGAGCCGCGTCCTCGCACCACGCCGTGCATCTGCCCCAATTAA HSLRSDPEPRPRTTPCICPN* -1.297 0.001493 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25951 PKNTARYDRTSYKVYITRLK 20 SLAY-screened peptide P4301 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAAGAATACCGCCCGCTATGACAGGACGTCTTATAAGGTTTATATCACCCGGCTGAAGTAA PKNTARYDRTSYKVYITRLK* -1.297 0.003155 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25952 GCQSLHDSCIYFPSHYNVCMY 21 SLAY-screened peptide P4302 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGTGCCAGTCCCTCCATGATTCTTGCATCTACTTTCCTAGTCATTACAATGTGTGCATGTAC GCQSLHDSCIYFPSHYNVCMY -1.296 0.000518 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25953 VPLCAWSPPTLCLRSDNVPQ 20 SLAY-screened peptide P4303 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCCCCTCTGCGCCTGGAGTCCTCCCACCCTCTGTCTGAGGTCCGACAACGTTCCCCAGTAA VPLCAWSPPTLCLRSDNVPQ* -1.296 0.002315 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25954 VSHKCIGSPSADWNRPSAGI 20 SLAY-screened peptide P4304 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCAGTCACAAGTGCATTGGTAGTCCTTCCGCGGATTGGAACCGTCCGTCGGCGGGCATTTAA VSHKCIGSPSADWNRPSAGI* -1.296 0.00049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25955 PPDLPGNTIPFQCMPQKAH 19 SLAY-screened peptide P4305 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCGGACCTTCCGGGCAATACCATCCCGTTCCAGTGCATGCCGCAGAAGGCGCATTAGTAA PPDLPGNTIPFQCMPQKAH** -1.296 0.000245 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25956 YCPPIPAHAFCLHPTMWCHI 20 SLAY-screened peptide P4306 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGCCCCCCTATTCCGGCGCACGCCTTTTGTCTTCACCCTACGATGTGGTGCCATATTTAA YCPPIPAHAFCLHPTMWCHI* -1.296 0.01233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25957 AVVDCPWHHFNPLRSRLHSP 20 SLAY-screened peptide P4307 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGTGGTCGACTGTCCCTGGCACCACTTTAATCCGCTCAGGTCGAGGCTCCACTCCCCCTAA AVVDCPWHHFNPLRSRLHSP* -1.296 0.000873 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25958 YHLNIPYSVRKCCFMFFTRC 20 SLAY-screened peptide P4308 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCACTTGAACATCCCCTACAGTGTGAGGAAGTGCTGCTTCATGTTCTTCACTCGCTGCTAA YHLNIPYSVRKCCFMFFTRC* -1.296 0.001338 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25959 QVLLSTLRGVYLYTKHYLNP 20 SLAY-screened peptide P4309 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGTTCTTCTTTCCACCCTGAGGGGCGTCTATCTGTATACTAAGCATTACCTCAATCCTTAA QVLLSTLRGVYLYTKHYLNP* -1.296 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25960 THLSSESLLLGLSNTLHFYR 20 SLAY-screened peptide P4310 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCACCTTTCCAGCGAGTCGCTCCTCCTTGGCCTTTCTAACACCCTTCATTTTTACAGGTAA THLSSESLLLGLSNTLHFYR* -1.295 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25961 NSLTVPHLIRYVETIIGSRY 20 SLAY-screened peptide P4311 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCGTTGACGGTCCCCCACCTTATCAGGTATGTTGAGACGATCATCGGTTCTCGTTACTAA NSLTVPHLIRYVETIIGSRY* -1.295 0.014383 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25962 TSCPFNLVHGLGP 13 SLAY-screened peptide P4312 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAGCTGCCCGTTCAACCTCGTCCATGGTCTGGGGCCGTAGAAGCCCCGCACCGAGCCTTAA TSCPFNLVHGLGP*KPRTEP* -1.295 0.000768 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25963 SLDSMAPAVCVKPNYIPLII 20 SLAY-screened peptide P4313 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCTGGACTCGATGGCTCCGGCCGTGTGCGTTAAGCCGAACTATATCCCGCTTATTATCTAA SLDSMAPAVCVKPNYIPLII* -1.295 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25964 LLWALVSPIPWLVHSDGKFQ 20 SLAY-screened peptide P4314 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTCTGGGCCTTGGTCAGTCCTATCCCTTGGCTCGTCCATTCCGATGGTAAGTTTCAGTAA LLWALVSPIPWLVHSDGKFQ* -1.295 0.04805 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25965 PLPINPNSPAITPAPQITFH 20 SLAY-screened peptide P4315 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTTGCCCATTAACCCGAACTCTCCGGCTATTACCCCGGCTCCCCAGATTACGTTTCACTAA PLPINPNSPAITPAPQITFH* -1.294 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25966 TFTCRPVTLTNDS 13 SLAY-screened peptide P4316 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTTTACCTGCAGGCCCGTGACGCTGACGAACGACTCGTAGCCGGACTCTAGTCAGCGCTAA TFTCRPVTLTNDS*PDSSQR* -1.294 0.004516 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25967 ILRLQPCLLCLFIVS 15 SLAY-screened peptide P4317 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCTTCGGCTGCAGCCTTGTCTCCTTTGTCTCTTTATCGTGTCTTAGAAGGGTGGTATGTAA ILRLQPCLLCLFIVS*KGGM* -1.294 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25968 SHQAYIAHQVHNAHIRGPPH 20 SLAY-screened peptide P4318 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCATCAGGCCTACATTGCCCATCAGGTTCACAATGCTCACATCCGTGGGCCGCCCCACTAA SHQAYIAHQVHNAHIRGPPH* -1.294 0.000882 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25969 PHLCMTCLGLPNDPRSIWTH 20 SLAY-screened peptide P4319 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCATTTGTGCATGACCTGTCTTGGGTTGCCGAATGATCCCCGCTCCATTTGGACGCATTAA PHLCMTCLGLPNDPRSIWTH* -1.294 0.011867 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25970 PHHWFSARLDSSHATQGAHR 20 SLAY-screened peptide P4320 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCACCACTGGTTTTCCGCCCGCCTTGATTCTTCCCATGCTACTCAGGGTGCCCATCGCTAA PHHWFSARLDSSHATQGAHR* -1.294 0.046612 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25971 RCSPTLDSHYNMCNCVRNYS 20 SLAY-screened peptide P4321 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTGCTCCCCGACCCTGGACTCTCATTACAACATGTGCAACTGTGTTCGTAATTACAGCTAA RCSPTLDSHYNMCNCVRNYS* -1.293 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25972 LLHFYPSLWLGRTRRPIRPCN 21 SLAY-screened peptide P4322 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTCCATTTTTACCCGTCGCTGTGGCTCGGACGAACTCGCCGCCCAATCCGTCCGTGTAAC LLHFYPSLWLGRTRRPIRPCN -1.293 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25973 PTLPLFDKTRGYRRTTSVFK 20 SLAY-screened peptide P4323 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCCTGCCGCTCTTTGACAAGACTCGGGGCTATCGGAGGACTACTAGCGTTTTTAAGTAA PTLPLFDKTRGYRRTTSVFK* -1.293 0.001805 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25974 PIVMGRARCTIWNAIIDLRS 20 SLAY-screened peptide P4324 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATCGTCATGGGTCGCGCCCGGTGTACCATCTGGAATGCCATTATTGATCTCCGCAGTTAA PIVMGRARCTIWNAIIDLRS* -1.293 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25975 TALSVENTYSTWLCAPNSLL 20 SLAY-screened peptide P4325 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCTCTGTCCGTGGAGAATACGTATAGCACTTGGTTGTGCGCCCCCAACTCCCTGCTCTAA TALSVENTYSTWLCAPNSLL* -1.293 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25976 PRMK 4 SLAY-screened peptide P4326 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCATGAAGTAGTCTCTGAGCACCTCGACTGAGCGCGCCTGTAACAACCATCCCAAGTAA PRMK*SLSTSTERACNNHPK* -1.293 0.001285 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25977 IRSVAPNACFKQENLDAFTS 20 SLAY-screened peptide P4327 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCGCTCCGTCGCCCCCAACGCGTGCTTCAAGCAGGAGAATCTCGACGCTTTCACCTCCTAA IRSVAPNACFKQENLDAFTS* -1.293 0.024716 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25978 FQSNYNGARHVFVN 14 SLAY-screened peptide P4328 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCAGAGTAACTACAACGGTGCGAGGCACGTTTTCGTGAACTAGTGTTGTCACATTTACTAA FQSNYNGARHVFVN*CCHIY* -1.293 0.017738 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25979 GTSRSN 6 SLAY-screened peptide P4329 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCACTTCTCGGTCCAATTAGGCTCACCCGGGGATTACTATGGACCCGGAGCTCTTTACCTAA GTSRSN*AHPGITMDPELFT* -1.293 0.033007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25980 DDSTTGCISTHSAVYSMSLL 20 SLAY-screened peptide P4330 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGACAGCACCACCGGTTGTATTTCTACCCACTCGGCTGTGTATTCTATGTCCCTGCTTTAA DDSTTGCISTHSAVYSMSLL* -1.292 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25981 ACGIPLIRARSICLFCLN 18 SLAY-screened peptide P4331 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTGCGGGATCCCACTTATACGGGCCCGATCTATTTGCTTATTTTGCCTTAACTGAGTAAGT ACGIPLIRARSICLFCLN*VS -1.292 0.001576 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25982 ERICFLGAENHTTSLYTHVD 20 SLAY-screened peptide P4332 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCGTATTTGCTTCCTTGGGGCCGAGAATCACACTACTTCCTTGTATACTCACGTTGATTAA ERICFLGAENHTTSLYTHVD* -1.291 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25983 AVDTSSPRT 9 SLAY-screened peptide P4333 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGTTGACACCTCCTCGCCTCGCACCTAGTATTCTCATTCTATCGACCATATTATTGCTTAA AVDTSSPRT*YSHSIDHIIA* -1.291 0.040637 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25984 TILLSRLLGRATLLAMIIPCN 21 SLAY-screened peptide P4334 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTATCTTGCTTAGCCGGCTGCTTGGCCGTGCCACACTTCTGGCGATGATAATACCGTGTAAC TILLSRLLGRATLLAMIIPCN -1.291 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25985 ILKNYLFTDF 10 SLAY-screened peptide P4335 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCTTAAGAACTATCTTTTCACCGATTTTTAGATGCTCAGGTTGCTCGCTATTTGTAGGTAA ILKNYLFTDF*MLRLLAICR* -1.291 0.001478 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25986 LCAMVSSFAYVRMVADDLFT 20 SLAY-screened peptide P4336 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGTGCTATGGTGTCTAGTTTCGCCTACGTGCGTATGGTTGCTGACGATCTTTTTACCTAA LCAMVSSFAYVRMVADDLFT* -1.291 0.009915 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25987 DSSAYAPIYMLSVYRVSKYE 20 SLAY-screened peptide P4337 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACAGTTCGGCCTACGCTCCGATTTACATGCTTAGCGTTTACCGTGTCAGCAAGTATGAGTAA DSSAYAPIYMLSVYRVSKYE* -1.29 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25988 NKAERGLTVNHVR 13 SLAY-screened peptide P4338 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATAAGGCTGAGCGTGGGTTGACCGTTAATCACGTTAGGTAGGACGTTACGAATTACCTGTAA NKAERGLTVNHVR*DVTNYL* -1.29 0.019204 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25989 RSLLGAFRRCPAVSIWSTLFN 21 SLAY-screened peptide P4339 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGAAGTCTCCTAGGCGCTTTTAGACGGTGCCCCGCTGTGTCTATATGGAGTACGTTGTTTAAC RSLLGAFRRCPAVSIWSTLFN -1.289 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25990 CNHFSAKLMRNTHGPPDIIL 20 SLAY-screened peptide P4340 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAATCATTTCAGCGCCAAGCTGATGCGGAATACCCACGGCCCTCCGGATATCATTCTGTAA CNHFSAKLMRNTHGPPDIIL* -1.289 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25991 IACRTIPATKMPCCLCMDKTY 21 SLAY-screened peptide P4341 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGCCTGCCGGACCATTCCGGCCACCAAGATGCCTTGCTGTTTGTGTATGGATAAGACGTAC IACRTIPATKMPCCLCMDKTY -1.289 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25992 TDFATTCFTPDTLFISIWCV 20 SLAY-screened peptide P4342 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGACTTTGCGACCACGTGCTTTACTCCCGACACTCTCTTCATTAGCATCTGGTGCGTTTAA TDFATTCFTPDTLFISIWCV* -1.289 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25993 ATSDCV 6 SLAY-screened peptide P4343 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTACGTCCGATTGTGTGTAGTGGATCAGCCGCTCTCCCACTTTTTCCATGGACTGGACCTAA ATSDCV*WISRSPTFSMDWT* -1.289 0.000064 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25994 CNRGRRSGTYSIRESHRCPL 20 SLAY-screened peptide P4344 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAACAGGGGGAGGAGGAGCGGGACCTATAGTATTCGTGAGTCTCACCGGTGTCCGTTGTAA CNRGRRSGTYSIRESHRCPL* -1.289 0.048548 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25995 QWDAISSLFGKTFS 14 SLAY-screened peptide P4345 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTGGGATGCTATTAGCTCTCTCTTTGGCAAGACGTTCAGTTAGCTTTATATCCATATCTAA QWDAISSLFGKTFS*LYIHI* -1.289 0.012027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25996 RATLIVRRLLSLLRFVRGICN 21 SLAY-screened peptide P4346 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCCACTCTAATAGTAAGACGTCTCCTTTCATTGCTCCGCTTCGTCCGGGGCATTTGTAAC RATLIVRRLLSLLRFVRGICN -1.289 0.043729 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25997 HTETSQVDDTTTPLYVSCFI 20 SLAY-screened peptide P4347 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACTGAGACCTCTCAGGTGGATGATACGACGACTCCTCTCTACGTTTCTTGCTTTATCTAA HTETSQVDDTTTPLYVSCFI* -1.289 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25998 TPRVSVSPLAARIIAPSRSN 20 SLAY-screened peptide P4348 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCTCGCGTCTCAGTAAGTCCGCTGGCCGCACGAATAATAGCCCCGAGCCGCTCTAACTGA TPRVSVSPLAARIIAPSRSN* -1.289 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP25999 SLAHHFIRPPMLLTTFSARV 20 SLAY-screened peptide P4349 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCTTGCCCACCATTTTATCCGTCCGCCCATGCTTCTCACGACTTTCAGCGCGCGTGTCTAA SLAHHFIRPPMLLTTFSARV* -1.288 0.003911 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26000 SEQSVKCPSPYYLSM 15 SLAY-screened peptide P4350 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGAGCAGAGCGTTAAGTGCCCGAGCCCCTACTACCTTTCCATGTAGAACGCGGATGATTAA SEQSVKCPSPYYLSM*NADD* -1.288 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26001 HTDICSPYRPPLHTVKIEST 20 SLAY-screened peptide P4351 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACTGATATTTGCAGTCCCTATCGTCCCCCGTTGCATACTGTGAAGATTGAGAGCACGTAA HTDICSPYRPPLHTVKIEST* -1.288 0.000206 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26002 SGLTSPYPYCHRHCRRKFYR 20 SLAY-screened peptide P4352 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGGCCTGACGTCCCCCTACCCCTATTGCCACAGGCATTGCCGGCGCAAGTTCTACCGGTAA SGLTSPYPYCHRHCRRKFYR* -1.288 0.023816 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26003 PIHSHTPLWSNRSSPWTTSM 20 SLAY-screened peptide P4353 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATCCATAGTCACACCCCTCTCTGGTCGAATCGGTCCTCCCCGTGGACGACGAGCATGTAA PIHSHTPLWSNRSSPWTTSM* -1.288 0.004885 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26004 TFAFHPHHTVTYVISPDHCG 20 SLAY-screened peptide P4354 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTTTGCTTTTCATCCGCATCATACTGTCACTTACGTGATCTCCCCTGACCACTGCGGTTAA TFAFHPHHTVTYVISPDHCG* -1.288 0.000047 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26005 LYGNRCDQVIHVSDFPPTSA 20 SLAY-screened peptide P4355 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTATGGGAATAGGTGCGACCAGGTGATCCATGTTTCCGATTTTCCTCCTACCTCCGCCTAA LYGNRCDQVIHVSDFPPTSA* -1.288 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26006 CITYFVTLCSQAYSRRSRRL 20 SLAY-screened peptide P4356 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCATTACGTATTTCGTCACGCTCTGTTCTCAGGCCTACTCTCGTCGTTCGCGTCGTTTGTAA CITYFVTLCSQAYSRRSRRL* -1.287 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26007 SSDTNQ 6 SLAY-screened peptide P4357 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAGTGACACTAACCAGTAGATTACCGGTTCTTAGCGGACCTCTTCGAACCGGGCTCGGTAA SSDTNQ*ITGS*RTSSNRAR* -1.287 0.001356 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26008 LFTTDYCRANRCPTDHVAER 20 SLAY-screened peptide P4358 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTCACTACTGACTATTGCCGCGCCAATCGCTGTCCGACCGACCACGTCGCGGAGCGTTAA LFTTDYCRANRCPTDHVAER* -1.287 0.008755 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26009 ARASSPRSRSNNPG 14 SLAY-screened peptide P4359 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGGGCCAGTTCGCCCCGCTCCCGTAGCAACAACCCCGGTTAGGTCTACGGTGCCCCCTAA ARASSPRSRSNNPG*VYGAP* -1.287 0.01295 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26010 MMSPNKADQHSTLFLPALPC 20 SLAY-screened peptide P4360 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGATGTCGCCTAATAAGGCCGACCAGCATAGTACTCTCTTCTTGCCGGCCCTCCCGTGCTAA MMSPNKADQHSTLFLPALPC* -1.287 0.003386 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26011 CVYAVICIIVI 11 SLAY-screened peptide P4361 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTGTACGCCGTTATCTGTATCATTGTAATATGACTGTTTTTTCTGCCAACTATTCGTAAC CVYAVICIIVI*LFFLPTIRN -1.286 0.000078 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26012 SHTYHRALNPWIIRNNQVKP 20 SLAY-screened peptide P4362 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCACACCTACCATCGGGCCCTTAACCCCTGGATTATCCGTAATAACCAGGTCAAGCCTTAA SHTYHRALNPWIIRNNQVKP* -1.286 0.014305 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26013 DLHYYNPRLYCLSPAFALLD 20 SLAY-screened peptide P4363 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCTTCACTATTATAATCCGCGCTTGTACTGCTTGTCTCCGGCCTTTGCCCTCCTTGATTAA DLHYYNPRLYCLSPAFALLD* -1.286 0.011881 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26014 GRFVMMRHLLAVLKNVACGH 20 SLAY-screened peptide P4364 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCGGTTCGTTATGATGCGTCATCTTTTGGCCGTCTTGAAGAACGTCGCGTGCGGCCATTAA GRFVMMRHLLAVLKNVACGH* -1.286 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26015 TTPSIANSLMHMFLTRPGAP 20 SLAY-screened peptide P4365 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACGCCCTCTATTGCGAACAGTCTTATGCATATGTTCTTGACCCGTCCCGGTGCTCCCTAA TTPSIANSLMHMFLTRPGAP* -1.286 0.000468 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26016 RRHFPVKMLHSTCMNFESLN 20 SLAY-screened peptide P4366 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGTCACTTTCCCGTCAAGATGCTTCATTCCACTTGCATGAATTTTGAGAGTCTGAATTAA RRHFPVKMLHSTCMNFESLN* -1.286 0.00002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26017 SRNNISYTNLKSSNPAGLFH 20 SLAY-screened peptide P4367 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAGGAACAATATCTCTTACACTAATCTCAAGAGCTCTAACCCTGCGGGTCTTTTCCATTAA SRNNISYTNLKSSNPAGLFH* -1.285 0.024628 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26018 FLAPNPIPAPYRGASAHQLC 20 SLAY-screened peptide P4368 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCTGGCTCCTAATCCCATCCCTGCCCCTTATCGTGGGGCCTCGGCCCACCAGCTTTGCTAA FLAPNPIPAPYRGASAHQLC* -1.285 0.000122 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26019 HDWHMPTLFHPCNWAYNGYR 20 SLAY-screened peptide P4369 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGATTGGCACATGCCCACTCTTTTCCATCCTTGCAACTGGGCCTACAATGGCTACCGGTAA HDWHMPTLFHPCNWAYNGYR* -1.285 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26020 GCSDHLTSLYQRTLYTTTPW 20 SLAY-screened peptide P4370 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTGCAGTGATCATTTGACCAGTCTTTACCAGCGCACTCTCTACACCACCACTCCTTGGTAA GCSDHLTSLYQRTLYTTTPW* -1.285 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26021 RRYGASSQSSNLFNLVLFAI 20 SLAY-screened peptide P4371 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCGTTATGGTGCCTCGTCTCAGTCGTCCAACCTGTTCAATTTGGTGTTGTTCGCTATTTAA RRYGASSQSSNLFNLVLFAI* -1.284 0.038002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26022 TAILARDVNHMTDLDKCFEV 20 SLAY-screened peptide P4372 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCGATTCTTGCGCGTGATGTGAATCATATGACTGATCTTGACAAGTGTTTTGAGGTTTAA TAILARDVNHMTDLDKCFEV* -1.284 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26023 SITRLGSAASNSRTVNPART 20 SLAY-screened peptide P4373 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCATCACTCGGCTCGGCTCTGCCGCTAGTAACAGTAGGACTGTCAACCCGGCTCGCACTTAA SITRLGSAASNSRTVNPART* -1.284 0.013616 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26024 SCGPYYIVVRTYDNGLPLV 19 SLAY-screened peptide P4374 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGTGGGCCGTACTACATCGTCGTTCGGACGTACGATAATGGTCTCCCCCTGGTTTAGTAA SCGPYYIVVRTYDNGLPLV** -1.284 0.000153 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26025 DPFPHANTGVRLFKGNTYNN 20 SLAY-screened peptide P4375 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCGTTCCCCCACGCGAACACTGGCGTCAGGCTTTTTAAGGGGAACACTTACAACAACTAA DPFPHANTGVRLFKGNTYNN* -1.284 0.048108 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26026 MCRRIAIFTFRVCIIVGRRTN 21 SLAY-screened peptide P4376 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTGCCGGCGGATTGCTATTTTCACTTTCAGAGTTTGTATCATAGTTGGGAGGCGTACTAAC MCRRIAIFTFRVCIIVGRRTN -1.284 0.016004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26027 PVNVHSGSRVTRTCTSPLFA 20 SLAY-screened peptide P4377 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTTAACGTCCACTCGGGTTCCCGGGTTACTCGCACGTGCACCTCCCCGCTTTTTGCCTAA PVNVHSGSRVTRTCTSPLFA* -1.283 0.003781 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26028 YVSSSLATLGKNVLVSTYTD 20 SLAY-screened peptide P4378 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGTCTCTTCTAGTCTCGCCACTCTTGGGAAGAATGTTCTTGTGAGTACTTATACGGACTAA YVSSSLATLGKNVLVSTYTD* -1.283 0.005559 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26029 GVTIFHDNLTTCSTLDFCCW 20 SLAY-screened peptide P4379 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGTTACCATTTTCCATGACAACCTCACGACCTGTTCGACCCTCGACTTCTGTTGTTGGTAA GVTIFHDNLTTCSTLDFCCW* -1.283 0.001118 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26030 NSGLCNCIYWRADTKSPGMI 20 SLAY-screened peptide P4380 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCTGGCTTGTGTAATTGTATTTACTGGCGGGCTGACACTAAGAGTCCGGGTATGATTTAA NSGLCNCIYWRADTKSPGMI* -1.282 0.011149 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26031 PDCTMYLMCNGISPVQRHVY 20 SLAY-screened peptide P4381 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGATTGCACCATGTACTTGATGTGTAACGGCATCAGTCCTGTTCAGCGCCATGTCTATTAA PDCTMYLMCNGISPVQRHVY* -1.282 0.000313 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26032 HCGNSPIITMPNGIHNYDAD 20 SLAY-screened peptide P4382 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGCGGTAATTCTCCGATTATCACCATGCCCAACGGTATTCATAATTACGACGCCGATTAA HCGNSPIITMPNGIHNYDAD* -1.282 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26033 KIANYHDNNHRTNH 14 SLAY-screened peptide P4383 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGATTGCCAATTACCATGACAACAACCACCGGACGAATCACTAGTGGTAGTTGGATCACTAA KIANYHDNNHRTNH*W*LDH* -1.282 0.015745 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26034 NATADLPATVHVLPWPTYTI 20 SLAY-screened peptide P4384 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGCCACTGCCGATCTTCCTGCTACCGTGCACGTCCTTCCCTGGCCCACTTATACGATTTAA NATADLPATVHVLPWPTYTI* -1.282 0.008315 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26035 NGIYRPPLVHLFKTPNTSDT 20 SLAY-screened peptide P4385 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGGCATCTATCGCCCTCCTCTCGTCCATCTTTTTAAGACTCCTAACACTAGTGACACGTAA NGIYRPPLVHLFKTPNTSDT* -1.282 0.004109 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26036 CFISPPLSVLYYLLRSLLDL 20 SLAY-screened peptide P4386 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTTCATTTCTCCCCCGTTGTCTGTGCTTTACTATCTGCTCCGCTCGCTCCTGGACCTGTAA CFISPPLSVLYYLLRSLLDL* -1.281 0.000056 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26037 GPYDRLSKP 9 SLAY-screened peptide P4387 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCCCTACGACCGGCTTAGCAAGCCTTAGCCCCCCACTTACTATACCACTACGTACATTTAA GPYDRLSKP*PPTYYTTTYI* -1.281 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26038 GRAQNSEVMRPMHAFLVYYT 20 SLAY-screened peptide P4388 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCGTGCCCAGAATTCTGAGGTGATGAGGCCTATGCATGCTTTCCTCGTCTACTATACTTAA GRAQNSEVMRPMHAFLVYYT* -1.281 0.030375 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26039 FETPTTRYLLLPLDCSHPMH 20 SLAY-screened peptide P4389 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGAGACGCCTACCACCAGGTATCTCCTCCTCCCGCTGGACTGCTCTCATCCGATGCACTAA FETPTTRYLLLPLDCSHPMH* -1.281 0.000514 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26040 CPNLTPIASIPFKRRSNFSIN 21 SLAY-screened peptide P4390 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCCAACCTCACTCCTATTGCCTCGATCCCTTTTAAGAGGCGCTCCAACTTTAGTATTAAC CPNLTPIASIPFKRRSNFSIN -1.281 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26041 ASPFRFTPFTPTPRLIGALIN 21 SLAY-screened peptide P4391 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAGTCCTTTCAGGTTTACCCCCTTCACTCCAACACCCAGATTGATTGGAGCCTTAATTAAC ASPFRFTPFTPTPRLIGALIN -1.281 0.010294 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26042 LPGLDLFCRNHRPHP 15 SLAY-screened peptide P4392 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCCCGGGCTTGATCTTTTCTGCCGCAATCACCGTCCTCATCCTTAGCACAGGCGGCTCTAA LPGLDLFCRNHRPHP*HRRL* -1.281 0.000142 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26043 RSRSQLYSWSHMGHVYMSSK 20 SLAY-screened peptide P4393 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTCCAGGTCCCAGCTGTATTCCTGGTCCCACATGGGTCATGTCTACATGAGTAGCAAGTAA RSRSQLYSWSHMGHVYMSSK* -1.281 0.000619 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26044 KANPQVRTSTPRPTIAIATN 20 SLAY-screened peptide P4394 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGGCCAACCCGCAGGTGCGTACCTCTACTCCCCGGCCGACTATCGCCATCGCCACTAACTAA KANPQVRTSTPRPTIAIATN* -1.281 0.003866 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26045 RDSEPLYFVKDCGNYCLMRV 20 SLAY-screened peptide P4395 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGACAGCGAGCCGCTTTACTTTGTCAAGGATTGTGGTAATTATTGCCTCATGCGCGTGTAA RDSEPLYFVKDCGNYCLMRV* -1.28 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26046 PLHLTYLGIVRRVCSWLTNN 20 SLAY-screened peptide P4396 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTTGCACCTGACCTATCTTGGTATTGTTAGGCGGGTCTGCAGTTGGCTTACTAATAACTAA PLHLTYLGIVRRVCSWLTNN* -1.28 0.00897 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26047 SPWQIGADRIVPTMAWRMGT 20 SLAY-screened peptide P4397 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCCCTGGCAGATCGGCGCCGATAGGATCGTTCCTACCATGGCGTGGCGGATGGGCACTTAA SPWQIGADRIVPTMAWRMGT* -1.28 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26048 AVSVFHLTLHNLKPSKFVYW 20 SLAY-screened peptide P4398 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGTCAGCGTCTTCCATCTTACTTTGCACAATCTCAAGCCCTCGAAGTTCGTGTATTGGTAA AVSVFHLTLHNLKPSKFVYW* -1.28 0.002493 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26049 TVAQHIRVSPGFCV 14 SLAY-screened peptide P4399 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGTCGCCCAGCATATCAGGGTCAGTCCCGGTTTTTGCGTGTAGCTGGCTTGCCACAAGTAA TVAQHIRVSPGFCV*LACHK* -1.279 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26050 PNMPQNSEQSKNSSLSTQNM 20 SLAY-screened peptide P4400 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAACATGCCCCAGAATTCTGAGCAGAGTAAGAACTCGAGTCTCAGCACTCAGAACATGTAA PNMPQNSEQSKNSSLSTQNM* -1.279 0.019876 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26051 FSDICKFCQGYYALERPCVL 20 SLAY-screened peptide P4401 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAGCGACATCTGTAAGTTTTGCCAGGGCTATTATGCCTTGGAGCGGCCGTGCGTTTTGTAA FSDICKFCQGYYALERPCVL* -1.279 0.001021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26052 TSHYAPIIMVSI 12 SLAY-screened peptide P4402 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAGTCATTATGCTCCCATCATTATGGTTAGTATTTAGACCCCTAGTAACAAGGGCTGCTAA TSHYAPIIMVSI*TPSNKGC* -1.279 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26053 PFLL 4 SLAY-screened peptide P4403 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTCCTGCTGTAGTCGCCGCCCACGCTCTTCTGGTCTACTACTTAGAAGCCGGCTACGTAA PFLL*SPPTLFWSTT*KPAT* -1.278 0.003494 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26054 CARVSAKTSSTSWTLPHRAA 20 SLAY-screened peptide P4404 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCCCGCGTGAGCGCCAAGACGTCCAGCACGTCCTGGACTCTCCCCCATCGTGCTGCTTAA CARVSAKTSSTSWTLPHRAA* -1.278 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26055 TMQWSPLRMPRRATTRCGAQ 20 SLAY-screened peptide P4405 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCATGCAGTGGTCGCCGCTCCGTATGCCCCGCCGCGCCACTACGCGCTGCGGGGCCCAGTAA TMQWSPLRMPRRATTRCGAQ* -1.278 0.044551 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26056 RWLNQMNHLSNSSCLAH 17 SLAY-screened peptide P4406 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGGTTGAACCAGATGAACCACCTCAGTAATTCGTCGTGCCTGGCCCATTAGCTCAATTAA RWLNQMNHLSNSSCLAH*LN* -1.278 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26057 SRAMPSSAPRPEERQPRDTV 20 SLAY-screened peptide P4407 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGGGCTATGCCTAGTAGCGCTCCTAGGCCGGAGGAGAGGCAGCCGAGGGACACCGTCTAA SRAMPSSAPRPEERQPRDTV* -1.278 0.044647 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26058 SWYTTVVFAFNLLNCLRVFIN 21 SLAY-screened peptide P4408 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTGGTATACCACTGTGGTTTTTGCCTTTAACCTCCTGAACTGCTTAAGGGTATTTATTAAC SWYTTVVFAFNLLNCLRVFIN -1.278 0.002672 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26059 HHNTCQCLYNTMSDIYHASA 20 SLAY-screened peptide P4409 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCACAATACCTGCCAGTGCCTTTACAACACCATGTCCGATATTTATCACGCTAGCGCCTAA HHNTCQCLYNTMSDIYHASA* -1.278 0.006118 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26060 HAVYDMSFGIADRFVSRQSA 20 SLAY-screened peptide P4410 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCTGTTTACGATATGAGCTTCGGTATTGCTGATAGGTTTGTGTCGCGCCAGAGCGCCTAA HAVYDMSFGIADRFVSRQSA* -1.278 0.005764 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26061 VFLVVLIISTGVLPTRTIRCN 21 SLAY-screened peptide P4411 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTTTTTAGTCGTATTAATAATAAGCACCGGTGTATTGCCGACTAGGACTATTCGGTGTAAC VFLVVLIISTGVLPTRTIRCN -1.277 0.001282 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26062 KDSYFLTIAVYYYAHPESPS 20 SLAY-screened peptide P4412 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGGATTCCTATTTCTTGACTATCGCTGTCTACTATTACGCCCATCCGGAGTCGCCTTCGTAA KDSYFLTIAVYYYAHPESPS* -1.277 0.01044 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26063 LAHSRNPYT 9 SLAY-screened peptide P4413 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGCGCACAGTCGCAACCCCTACACTTAGGCGGCCCAGAGGCGGACTAGCGACGTTAAGTAA LAHSRNPYT*AAQRRTSDVK* -1.277 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26064 LCPRHGAGITIFRLRLFN 18 SLAY-screened peptide P4414 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTGCCCGAGGCATGGCGCCGGTATTACCATATTTCGCTTACGGCTATTTAACTGAGTAAGT LCPRHGAGITIFRLRLFN*VS -1.277 0.004293 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26065 HCGPQANASHVHNIIPILNM 20 SLAY-screened peptide P4415 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGTGGCCCTCAGGCTAACGCTAGCCATGTCCACAATATCATCCCCATTTTGAACATGTAA HCGPQANASHVHNIIPILNM* -1.277 0.042712 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26066 SGYGQPRDPNNKTM 14 SLAY-screened peptide P4416 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGGCTATGGTCAGCCCCGGGACCCTAACAATAAGACCATGTAGTATGTTTCCTAACTGAGT SGYGQPRDPNNKTM*YVS*LS -1.277 0.036831 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26067 TPPISLCWASRPASNPSPGS 20 SLAY-screened peptide P4417 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCCCCCTATCTCGCTCTGCTGGGCCAGTCGGCCTGCTAGCAATCCCAGCCCGGGCTCCTAA TPPISLCWASRPASNPSPGS* -1.276 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26068 RILRFLRVFLTSRPCARVSRP 21 SLAY-screened peptide P4418 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTATCCTACGTTTTCTAAGAGTTTTCCTTACTAGTAGACCATGCGCACGAGTAAGTCGACCT RILRFLRVFLTSRPCARVSRP -1.276 0.000917 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26069 SRSSAAACCNYEAFSIPILL 20 SLAY-screened peptide P4419 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGCTCTTCCGCTGCGGCGTGTTGTAATTACGAGGCTTTTTCTATCCCGATTCTCTTGTAA SRSSAAACCNYEAFSIPILL* -1.276 0.000099 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26070 PSRRGFGLYVQVFNVRRRTD 20 SLAY-screened peptide P4420 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAGTAGGCGTGGTTTCGGCCTCTATGTGCAGGTGTTTAACGTTCGGCGTCGGACCGACTAA PSRRGFGLYVQVFNVRRRTD* -1.276 0.020996 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26071 TALLTTPVRTTSSTDTFFNS 20 SLAY-screened peptide P4421 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCGCTTCTTACTACCCCGGTTCGCACCACGAGCAGCACGGACACGTTTTTTAACTCCTAA TALLTTPVRTTSSTDTFFNS* -1.275 0.001363 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26072 DLGDPLDNITWCMSNSTYNN 20 SLAY-screened peptide P4422 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCTTGGGGATCCTCTCGATAATATTACCTGGTGTATGTCTAATTCCACTTATAATAACTAA DLGDPLDNITWCMSNSTYNN* -1.275 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26073 VHLLGNSMNGGCTASVHPVV 20 SLAY-screened peptide P4423 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCATCTGCTCGGCAATTCGATGAATGGTGGTTGTACTGCTTCCGTCCATCCTGTGGTGTAA VHLLGNSMNGGCTASVHPVV* -1.275 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26074 GLPPANPALHAIIVPCVPII 20 SLAY-screened peptide P4424 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTTGCCTCCGGCGAACCCCGCTCTTCACGCGATTATTGTGCCGTGTGTTCCCATTATTTAA GLPPANPALHAIIVPCVPII* -1.275 0.000087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26075 TISSSARGCT 10 SLAY-screened peptide P4425 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGATTTCTAGCTCAGCGCGCGGGTGCACATGAGTTAGACTATCGACTATCTGCATTCGTAAC TISSSARGCT*VRLSTICIRN -1.275 0.001048 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26076 AYIHPSGPTDDNPCQTPRYT 20 SLAY-screened peptide P4426 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTATATCCACCCCAGCGGGCCTACTGACGATAACCCGTGCCAGACTCCGAGGTACACCTAA AYIHPSGPTDDNPCQTPRYT* -1.275 0.000101 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26077 CTAYLYGTPDASRCRSCCYT 20 SLAY-screened peptide P4427 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCACGGCCTATCTTTACGGGACCCCTGATGCCAGTCGGTGCCGTAGTTGTTGCTATACTTAA CTAYLYGTPDASRCRSCCYT* -1.275 0.010244 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26078 RQNLSFARYFPYGVVH 16 SLAY-screened peptide P4428 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCAGAACCTGAGTTTCGCGCGTTACTTTCCGTACGGAGTTGTCCATTAATAGCTCGTAACT RQNLSFARYFPYGVVH**LVT -1.274 0.012727 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26079 VLRPR 5 SLAY-screened peptide P4429 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTTGCGCCCCCGTTAGCCCGTCTCTCGTCACGTCTGCACTTACAATCGGTATTTGCTCTAA VLRPR*PVSRHVCTYNRYLL* -1.274 0.027784 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26080 TLVTPPGFAFVPSILLHRHA 20 SLAY-screened peptide P4430 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTCGTTACTCCGCCGGGTTTCGCTTTTGTTCCCAGCATTCTTCTTCATCGTCACGCTTAA TLVTPPGFAFVPSILLHRHA* -1.274 0.011981 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26081 HSDLPSYHVLPHVLIHVVLA 20 SLAY-screened peptide P4431 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTCCGACCTGCCGTCTTATCATGTCCTGCCTCATGTTCTTATCCATGTCGTTCTGGCCTAA HSDLPSYHVLPHVLIHVVLA* -1.274 0.0198 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26082 PTGTKGLEHTPMNPFDISLI 20 SLAY-screened peptide P4432 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCGGGACCAAGGGCCTGGAGCACACGCCCATGAACCCTTTTGACATTTCCCTTATCTAA PTGTKGLEHTPMNPFDISLI* -1.273 0.004925 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26083 LTTDSGWSSGQVDSGLLTRS 20 SLAY-screened peptide P4433 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGACTACGGACTCGGGGTGGAGTTCGGGCCAGGTCGACTCGGGTCTCCTTACCCGTAGTTAA LTTDSGWSSGQVDSGLLTRS* -1.273 0.001082 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26084 RDDNCSRWPMPENTLRLRRCN 21 SLAY-screened peptide P4434 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGATGATAACTGTAGCAGGTGGCCTATGCCCGAGAACACTTTGCGCCTCAGGCGATGTAAC RDDNCSRWPMPENTLRLRRCN -1.273 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26085 HHSVNNGWRAYL 12 SLAY-screened peptide P4435 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCACAGCGTCAACAACGGTTGGCGCGCTTACCTCTAGAGTAATGCTCATAATTGCTATTAA HHSVNNGWRAYL*SNAHNCY* -1.273 0.00007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26086 PQVRAVAPLGISCA 14 SLAY-screened peptide P4436 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCAGGTGCGGGCCGTCGCCCCCCTTGGGATAAGCTGCGCTTAGGCGCGATAAGTGTTAACT PQVRAVAPLGISCA*AR*VLT -1.273 0.002957 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26087 YCTYYT 6 SLAY-screened peptide P4437 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGTACCTATTATACTTAGCACTACAGGCTTCTTTACAATATCATGAATTAGGCCGACTAA YCTYYT*HYRLLYNIMN*AD* -1.273 0.004303 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26088 NRHFRHLCATDFNGSAFQNS 20 SLAY-screened peptide P4438 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCGCCACTTTCGTCATCTTTGTGCCACGGATTTCAATGGTAGTGCGTTCCAGAATTCTTAA NRHFRHLCATDFNGSAFQNS* -1.273 0.000845 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26089 SCHRYGSGDYLKTLWRYSYF 20 SLAY-screened peptide P4439 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTGTCACCGTTATGGCTCGGGCGATTATTTGAAGACGTTGTGGCGGTACAGTTATTTTTAA SCHRYGSGDYLKTLWRYSYF* -1.273 0.012728 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26090 VYIILTDPGLL 11 SLAY-screened peptide P4440 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTACATTATTCTTACTGACCCTGGTCTGCTTTAGGGGGGCCCCAAGGCCAATAATCCGTAA VYIILTDPGLL*GGPKANNP* -1.273 0.000846 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26091 SFHTRPA 7 SLAY-screened peptide P4441 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTTCCATACCAGGCCCGCTTAGGGTACCAGCCTTCAGTCGGATAACTCGTCGCGCAATTAA SFHTRPA*GTSLQSDNSSRN* -1.273 0.003768 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26092 YPSCFCNTRNICQTMQEEII 20 SLAY-screened peptide P4442 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCTTCGTGTTTCTGCAATACGCGTAACATTTGTCAGACCATGCAGGAGGAGATTATCTAA YPSCFCNTRNICQTMQEEII* -1.273 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26093 PTTCTWLPTDYHQCNCHVFW 20 SLAY-screened peptide P4443 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACCACTTGCACCTGGCTTCCCACGGACTACCACCAGTGTAACTGTCATGTCTTCTGGTAA PTTCTWLPTDYHQCNCHVFW* -1.272 0.021561 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26094 RAEP 4 SLAY-screened peptide P4444 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCCGAGCCTTAGTCCATTTTTCACGCTACCACCAAGACTGTTCACTTCTACGGCCGCTAA RAEP*SIFHATTKTVHFYGR* -1.272 0.000167 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26095 RPDSTHIDHSYGCIYITT 18 SLAY-screened peptide P4445 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCGGATAGCACTCACATTGATCACTCGTACGGCTGCATCTATATTACCACTTAGGACTAA RPDSTHIDHSYGCIYITT*D* -1.272 0.006936 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26096 PLPHNTKCRLLPLPFRPRPD 20 SLAY-screened peptide P4446 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGCCGCACAACACCAAGTGCCGCCTCCTCCCCTTGCCTTTCCGGCCGCGCCCGGACTAA PLPHNTKCRLLPLPFRPRPD* -1.272 0.015654 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26097 LRILQPPSASYPHDFASRLR 20 SLAY-screened peptide P4447 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCGCATTCTGCAGCCGCCCAGTGCCAGCTATCCTCATGACTTCGCCAGCCGCCTGCGGTAA LRILQPPSASYPHDFASRLR* -1.272 0.001069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26098 HPWCPITQHSVYIYNPHTAN 20 SLAY-screened peptide P4448 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGTGGTGCCCTATTACGCAGCACTCGGTCTATATTTATAACCCCCATACTGCTAACTAA HPWCPITQHSVYIYNPHTAN* -1.272 0.033331 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26099 LVTDCHLSKSTPATLRLIQDH 21 SLAY-screened peptide P4449 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGTCACGGACTGCCACCTGAGTAAGTCGACCCCAGCTACGCTGCGCCTCATCCAGGATCAT LVTDCHLSKSTPATLRLIQDH -1.272 0.016572 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26100 GCPPLSPWYCLVAAHYRLYC 20 SLAY-screened peptide P4450 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTGCCCCCCGCTGTCTCCGTGGTACTGTTTGGTCGCTGCGCACTACAGGCTTTATTGCTAA GCPPLSPWYCLVAAHYRLYC* -1.272 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26101 TTIFWTRG 8 SLAY-screened peptide P4451 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACGATTTTTTGGACTCGGGGCTAGGTGGACCGCGCCTTCCTTACCCTTGTTAGTGGTTAC TTIFWTRG*VDRAFLTLVSGY -1.272 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26102 WRNLPDGTWNYVSDLNAPFQ 20 SLAY-screened peptide P4452 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCGGAACCTTCCCGATGGTACGTGGAACTACGTTTCGGATCTCAATGCTCCGTTTCAGTAA WRNLPDGTWNYVSDLNAPFQ* -1.271 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26103 QNPDLYLHYLINMNPKAYVS 20 SLAY-screened peptide P4453 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAACCCGGACCTTTACTTGCATTATCTGATCAACATGAATCCGAAGGCGTACGTCTCGTAA QNPDLYLHYLINMNPKAYVS* -1.271 0.004583 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26104 CWCRARNPLYDLVYHTSS 18 SLAY-screened peptide P4454 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTGGTGTCGGGCCCGCAACCCGCTTTACGACTTGGTTTACCACACCAGCTCTTAGAGCTAA CWCRARNPLYDLVYHTSS*S* -1.271 0.008738 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26105 SDIHNAVDLCARPLVLLLLGQ 21 SLAY-screened peptide P4455 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGACATTCATAACGCTGTTGACCTTTGCGCCCGCCCTCTCGTGCTCCTGCTTCTAGGACAA SDIHNAVDLCARPLVLLLLGQ -1.271 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26106 HDDSFCFRYVYRRPRQGPAA 20 SLAY-screened peptide P4456 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGATGACTCCTTCTGTTTCAGGTACGTGTATAGGCGTCCTAGGCAGGGGCCGGCTGCTTAA HDDSFCFRYVYRRPRQGPAA* -1.27 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26107 GACIYMRICTASPRNILCPN 20 SLAY-screened peptide P4457 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGGCCTGTATTTATATGCGTATCTGTACCGCGAGTCCCCGTAATATCCTGTGCCCGAACTAA GACIYMRICTASPRNILCPN* -1.27 0.000128 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26108 APPPRLAHNRTLRCGKT 17 SLAY-screened peptide P4458 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCCCCCCCTCGCCTGGCCCATAATAGGACCCTCCGGTGTGGCAAGACTTAGTACAGCTAA APPPRLAHNRTLRCGKT*YS* -1.269 0.013623 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26109 PCYRAFHHYIKDLILGLVRSN 21 SLAY-screened peptide P4459 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCTATCGCGCTTTTCACCACTACATCAAGGATTTAATACTAGGCCTTGTTCGCAGTAAC PCYRAFHHYIKDLILGLVRSN -1.269 0.004305 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26110 PLVRYDQRTSPLHHETIVNI 20 SLAY-screened peptide P4460 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTGGTGCGCTATGATCAGCGCACTAGTCCCCTGCATCACGAGACCATTGTCAACATCTAA PLVRYDQRTSPLHHETIVNI* -1.269 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26111 IPCGYTMTSYIRFDTHRNAF 20 SLAY-screened peptide P4461 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCGTGTGGCTATACTATGACCAGTTACATTCGGTTTGATACCCATCGCAATGCGTTTTAA IPCGYTMTSYIRFDTHRNAF* -1.269 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26112 TFQCTDSATPNLTPPFLLI 19 SLAY-screened peptide P4462 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTTCCAGTGTACGGACTCGGCCACTCCTAATCTGACCCCCCCTTTTCTTCTTATCTAGTAA TFQCTDSATPNLTPPFLLI** -1.269 0.000288 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26113 TQCDHCPYNKPLSPDFVHSR 20 SLAY-screened peptide P4463 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCAGTGCGACCACTGCCCTTATAACAAGCCTCTTAGTCCTGACTTCGTCCATTCTCGCTAA TQCDHCPYNKPLSPDFVHSR* -1.269 0.00088 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26114 LLYFNR 6 SLAY-screened peptide P4464 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTTTACTTTAACCGCTAGGATCGGCTTTGTGGGTGGGATCATTTGTTGCTCGACTTCTAA LLYFNR*DRLCGWDHLLLDF* -1.268 0.000435 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26115 ADQEISARQFLHDLCHSGQL 20 SLAY-screened peptide P4465 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGACCAGGAGATCAGCGCTAGGCAGTTTTTGCACGATCTTTGCCATTCGGGTCAGCTGTAA ADQEISARQFLHDLCHSGQL* -1.268 0.000599 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26116 HNHLYHDTCTLNRRNCEAHG 20 SLAY-screened peptide P4466 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAACCATCTCTACCATGACACCTGTACTTTGAACCGTCGGAATTGTGAGGCCCACGGGTAA HNHLYHDTCTLNRRNCEAHG* -1.267 0.00313 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26117 RSINYITIHPLSTRIFIPAP 20 SLAY-screened peptide P4467 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCGATTAATTACATTACTATTCATCCCCTCAGTACTCGTATCTTCATCCCTGCTCCGTAA RSINYITIHPLSTRIFIPAP* -1.267 0.00272 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26118 PYDSGYTKVHAIIGTTSNQT 20 SLAY-screened peptide P4468 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATGACTCTGGTTACACCAAGGTTCACGCCATCATTGGTACCACCTCCAATCAGACTTAA PYDSGYTKVHAIIGTTSNQT* -1.267 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26119 VPHHSYFSSRRI 12 SLAY-screened peptide P4469 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCGCATCATAGTTACTTTTCTTCGCGGAGGATCTAGTTTACTAGTATTGTCTGTTACTAA VPHHSYFSSRRI*FTSIVCY* -1.267 0.030785 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26120 WPTSHTRSLLAYNYQCNGT 19 SLAY-screened peptide P4470 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCTACCTCTCATACGAGGTCCCTTTTGGCCTACAACTACCAGTGTAACGGGACTTAGTAA WPTSHTRSLLAYNYQCNGT** -1.267 0.00073 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26121 AWRHQVIAPLYYLNFYTGSGN 21 SLAY-screened peptide P4471 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTGGCGTCACCAGGTGATCGCCCCTCTGTACTACCTCAATTTCTACACAGGTAGCGGTAAC AWRHQVIAPLYYLNFYTGSGN -1.266 0.00012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26122 SANAPFCFLCTCPYTITHTI 20 SLAY-screened peptide P4472 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGCCAATGCCCCGTTCTGCTTCCTTTGCACTTGCCCTTATACGATTACCCATACTATCTAA SANAPFCFLCTCPYTITHTI* -1.265 0.02747 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26123 TSSRRRIWVMLISLFLTLFAN 21 SLAY-screened peptide P4473 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCTAGTCGCAGGAGAATCTGGGTGATGTTGATATCACTGTTCTTAACTCTATTTGCTAAC TSSRRRIWVMLISLFLTLFAN -1.265 0.000717 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26124 FVIHPVFHVPPVVTFGPFSL 20 SLAY-screened peptide P4474 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGTCATTCACCCTGTGTTTCACGTGCCCCCCGTGGTGACCTTTGGCCCCTTCAGTTTGTAA FVIHPVFHVPPVVTFGPFSL* -1.265 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26125 GFADCLPIYGLLHPYYKFHI 20 SLAY-screened peptide P4475 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGTTCGCGGATTGCCTGCCTATTTATGGCCTTCTCCATCCTTACTATAAGTTTCACATTTAA GFADCLPIYGLLHPYYKFHI* -1.265 0.002373 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26126 AHLRELSGLNPRNHARSNPF 20 SLAY-screened peptide P4476 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCACCTGCGCGAGCTCTCTGGGCTGAACCCTCGCAACCATGCTCGCTCCAACCCGTTTTAA AHLRELSGLNPRNHARSNPF* -1.264 0.00068 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26127 LSMFRCPDTYPDHFLELTLR 20 SLAY-screened peptide P4477 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCCATGTTCCGTTGCCCGGACACTTATCCGGACCACTTCCTGGAGTTGACCCTCCGGTAA LSMFRCPDTYPDHFLELTLR* -1.264 0.015898 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26128 PGTPKCTAVVYVSSLAMRC 19 SLAY-screened peptide P4478 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGTACTCCCAAGTGTACCGCTGTTGTGTATGTCAGTTCTCTCGCTATGAGGTGTTAGTAA PGTPKCTAVVYVSSLAMRC** -1.264 0.026167 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26129 YSCAGLPHQFYCHYTCNQPL 20 SLAY-screened peptide P4479 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACAGTTGTGCTGGCCTGCCCCATCAGTTCTATTGCCATTATACGTGCAATCAGCCCTTGTAA YSCAGLPHQFYCHYTCNQPL* -1.264 0.006986 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26130 PPSSRSHHRRLPASCLATFI 20 SLAY-screened peptide P4480 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCTCGTCGCGCAGCCACCACCGCCGGCTTCCTGCCTCCTGCTTGGCCACCTTTATCTAA PPSSRSHHRRLPASCLATFI* -1.264 0.006113 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26131 NMCPWMPPLLL 11 SLAY-screened peptide P4481 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACATGTGTCCCTGGATGCCACCGCTACTACTATGAACATCGCTGCCTTCGTGTAGCTCTAAC NMCPWMPPLLL*TSLPSCSSN -1.263 0.000142 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26132 LMPTPSVHASIPRGNPIIRTN 21 SLAY-screened peptide P4482 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATGCCTACGCCGTCTGTCCATGCCTCGATTCCGAGGGGGAACCCTATCATACGAACTAAC LMPTPSVHASIPRGNPIIRTN -1.263 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26133 YFLNPMSIYHFLTLHCLNYA 20 SLAY-screened peptide P4483 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTTTCTGAACCCCATGAGTATTTATCACTTTCTCACGCTTCACTGTTTGAACTATGCGTAA YFLNPMSIYHFLTLHCLNYA* -1.263 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26134 GPLYDKFSLEPRVTLEFYAH 20 SLAY-screened peptide P4484 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCCCCTCTACGACAAGTTCAGCCTTGAGCCTCGTGTCACCCTCGAGTTCTATGCGCACTAA GPLYDKFSLEPRVTLEFYAH* -1.262 0.000317 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26135 TPGLIILCPTHGSTSLNPRS 20 SLAY-screened peptide P4485 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCCGGTCTGATCATCTTGTGCCCTACCCACGGGAGTACTAGCCTTAATCCGCGCTCGTAA TPGLIILCPTHGSTSLNPRS* -1.262 0.012345 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26136 CPSPTVAPNPYTVKY 15 SLAY-screened peptide P4486 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCTAGTCCTACTGTGGCTCCGAATCCGTACACGGTTAAGTACTAGAGCATTGGCACTAAC CPSPTVAPNPYTVKY*SIGTN -1.261 0.000037 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26137 PQPVPFEDVLDCAARLYTPS 20 SLAY-screened peptide P4487 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCAGCCTGTTCCGTTCGAGGACGTTCTCGATTGCGCTGCCCGGCTCTATACGCCGAGTTAA PQPVPFEDVLDCAARLYTPS* -1.261 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26138 PMCRSHLNDPFQLILYRTAD 20 SLAY-screened peptide P4488 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATGTGCCGTTCTCACCTTAACGACCCCTTCCAGCTCATCCTTTATCGCACCGCGGACTAA PMCRSHLNDPFQLILYRTAD* -1.26 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26139 PIRPNPPVCMSHPMWLNDTA 20 SLAY-screened peptide P4489 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATCCGGCCCAATCCCCCCGTCTGTATGAGCCACCCCATGTGGCTCAATGACACGGCCTAA PIRPNPPVCMSHPMWLNDTA* -1.26 0.000057 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26140 QTTIHCPRVNPFTLPIPFCS 20 SLAY-screened peptide P4490 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGACTACCATTCATTGCCCGCGTGTTAACCCGTTCACGCTCCCTATTCCGTTTTGCTCGTAA QTTIHCPRVNPFTLPIPFCS* -1.26 0.00945 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26141 LNLHCYTSVGHDIPRNGSDN 20 SLAY-screened peptide P4491 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGAACTTGCACTGTTACACGTCTGTGGGTCACGATATCCCCCGGAATGGCTCTGACAACTAA LNLHCYTSVGHDIPRNGSDN* -1.26 0.03057 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26142 TIGHCSE 7 SLAY-screened peptide P4492 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGATTGGTCATTGCTCGGAGTAGGATCACGAGTTTAATAGGCCTTCGTACAGTTTTACTAAC TIGHCSE*DHEFNRPSYSFTN -1.26 0.016058 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26143 CSLRCLS 7 SLAY-screened peptide P4493 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAGCCTTAGGTGTCTGTCGTAGTCGGGGACCAATTCTGTTTTGGAGCCGGCCGGCAACTAA CSLRCLS*SGTNSVLEPAGN* -1.26 0.004616 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26144 PNLPIIFIGRCYRRSRIYRP 20 SLAY-screened peptide P4494 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAACCTGCCTATTATCTTTATTGGGCGTTGTTACCGGAGGAGCCGCATCTATCGGCCTTAA PNLPIIFIGRCYRRSRIYRP* -1.259 0.001088 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26145 LRRGQPFTACTLGNNSAYAL 20 SLAY-screened peptide P4495 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGTCGCGGCCAGCCTTTTACGGCTTGCACCCTGGGTAACAACTCCGCCTACGCCCTCTAA LRRGQPFTACTLGNNSAYAL* -1.259 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26146 SSLCCANNLLRAPESSPARR 20 SLAY-screened peptide P4496 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTCGCTCTGCTGTGCCAACAATCTGCTTCGTGCTCCCGAGAGTAGTCCGGCGCGCAGGTAA SSLCCANNLLRAPESSPARR* -1.259 0.005693 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26147 TPCIHHNLPWIVRLFSLLGS 20 SLAY-screened peptide P4497 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCTTGTATCCATCATAACCTCCCCTGGATCGTCCGCCTTTTTTCTCTCCTCGGTTCTTAA TPCIHHNLPWIVRLFSLLGS* -1.259 0.014624 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26148 APPTTVLATTTRRRLRSLRRN 21 SLAY-screened peptide P4498 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCACCTACCACCGTCCTGGCTACAACTACAAGACGCCGACTCCGCTCCCTTCGGCGTAAC APPTTVLATTTRRRLRSLRRN -1.259 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26149 DCFTSFDFVLNY 12 SLAY-screened peptide P4499 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTGCTTCACTTCGTTTGATTTTGTCCTGAATTATTAGCCTGCTCTCACTACCGCTCGCTAA DCFTSFDFVLNY*PALTTAR* -1.259 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26150 PLLVPYAPCYTVAIPINLPK 20 SLAY-screened peptide P4500 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTGCTTGTTCCGTATGCCCCCTGTTACACTGTTGCCATTCCCATTAATCTGCCCAAGTAA PLLVPYAPCYTVAIPINLPK* -1.258 0.000116 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26151 TSPNCSPNLNTGRYLSYDLI 20 SLAY-screened peptide P4501 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCGCCCAACTGTAGCCCCAATTTGAACACTGGTCGCTATCTCTCTTATGACTTGATTTAA TSPNCSPNLNTGRYLSYDLI* -1.258 0.048467 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26152 NIHHNYCDVPRAYKNLSGIL 20 SLAY-screened peptide P4502 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACATCCACCACAACTACTGCGACGTGCCGCGTGCGTATAAGAATCTGTCCGGGATTCTGTAA NIHHNYCDVPRAYKNLSGIL* -1.258 0.000241 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26153 TCSQDSSVLNNAHIILVSGT 20 SLAY-screened peptide P4503 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTGTTCGCAGGACTCCAGCGTCCTGAATAATGCCCACATTATCCTGGTCAGTGGTACTTAA TCSQDSSVLNNAHIILVSGT* -1.258 0.015229 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26154 RYHSLPAWSAIMCPIARPLFP 21 SLAY-screened peptide P4504 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTACCACTCTTTGCCCGCTTGGAGCGCTATCATGTGCCCTATTGCGCGCCCATTGTTTCCG RYHSLPAWSAIMCPIARPLFP -1.258 0.016124 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26155 TINPRPSLRAIKNGAVYSAF 20 SLAY-screened peptide P4505 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCATTAACCCCCGTCCCAGTCTTCGTGCGATTAAGAACGGTGCGGTTTACAGTGCGTTTTAA TINPRPSLRAIKNGAVYSAF* -1.258 0.003518 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26156 FFDCTNVNGAHSLFYLTNPI 20 SLAY-screened peptide P4506 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTTCGACTGCACTAATGTTAATGGCGCTCATAGTCTTTTCTACCTTACGAATCCCATTTAA FFDCTNVNGAHSLFYLTNPI* -1.258 0.016016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26157 SCKTMLNHKLMDHITSLFMH 20 SLAY-screened peptide P4507 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTGCAAGACGATGCTTAACCATAAGCTTATGGACCACATTACGAGCTTGTTTATGCATTAA SCKTMLNHKLMDHITSLFMH* -1.258 0.000202 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26158 ATRVDPQCWRYYLLPIGNVL 20 SLAY-screened peptide P4508 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGACGCGCGTGGATCCTCAGTGCTGGCGCTATTATCTGCTTCCCATTGGTAACGTGCTTTAA ATRVDPQCWRYYLLPIGNVL* -1.258 0.008782 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26159 YNPCSLLCSRYTNCPFTNRD 20 SLAY-screened peptide P4509 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACAATCCTTGCAGTCTGCTTTGTTCCCGGTATACGAACTGCCCCTTTACGAACCGCGACTAA YNPCSLLCSRYTNCPFTNRD* -1.258 0.000753 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26160 ISGMPSLLPYRYRRKRTASH 20 SLAY-screened peptide P4510 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTAGCGGCATGCCGTCTCTTCTGCCTTACCGTTATCGGCGCAAGCGGACTGCTTCCCACTAA ISGMPSLLPYRYRRKRTASH* -1.258 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26161 VHDDAPTSIYADCTTLISLV 20 SLAY-screened peptide P4511 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCATGACGATGCGCCGACTTCGATTTATGCCGACTGCACTACGTTGATCTCCCTTGTTTAA VHDDAPTSIYADCTTLISLV* -1.257 0.003866 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26162 HPDAHSAGHRITPVLWPIQA 20 SLAY-screened peptide P4512 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCCGACGCGCACTCTGCCGGGCATCGTATTACCCCGGTCCTTTGGCCGATCCAGGCTTAA HPDAHSAGHRITPVLWPIQA* -1.257 0.0408 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26163 GHLVSFFP 8 SLAY-screened peptide P4513 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCACCTGGTTTCGTTTTTTCCTTAGTTGGGGCCGTACGCCATCTCGTCTTCCAGTACTTAA GHLVSFFP*LGPYAISSSST* -1.257 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26164 ASMTHNTKFTSFRRIMTTSR 20 SLAY-screened peptide P4514 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTCTATGACTCACAACACCAAGTTTACCAGTTTTCGTCGCATCATGACCACGTCGCGCTAA ASMTHNTKFTSFRRIMTTSR* -1.257 0.002704 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26165 PNMLYNNNNTQTGSTPYATL 20 SLAY-screened peptide P4515 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAACATGCTCTACAACAATAACAATACCCAGACGGGTAGCACCCCCTACGCTACGCTCTAA PNMLYNNNNTQTGSTPYATL* -1.256 0.000052 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26166 KTSKLIDGNSMRVNSNIGRF 20 SLAY-screened peptide P4516 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGACGTCCAAGCTTATTGATGGCAACTCGATGCGTGTTAACTCTAATATCGGGCGTTTTTAA KTSKLIDGNSMRVNSNIGRF* -1.256 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26167 EELVMLMGVGVINMHHVHMC 20 SLAY-screened peptide P4517 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGAGTTGGTTATGTTGATGGGCGTCGGTGTGATTAATATGCATCACGTTCATATGTGTTAA EELVMLMGVGVINMHHVHMC* -1.256 0.026433 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26168 VMELISVLYPPLRSRLTGVT 20 SLAY-screened peptide P4518 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCATGGAGCTCATCAGCGTTCTTTACCCCCCTCTTCGTTCTCGTCTCACCGGGGTTACTTAA VMELISVLYPPLRSRLTGVT* -1.256 0.003173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26169 PTLPCNSRYMIDFAYAGYDD 20 SLAY-screened peptide P4519 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACGCTCCCTTGTAATTCGAGGTACATGATCGATTTCGCGTATGCTGGTTATGATGACTAA PTLPCNSRYMIDFAYAGYDD* -1.256 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26170 CP 2 SLAY-screened peptide P4520 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCTTAGCGCATCACGGACTGCTTCATCATCTTCTCGCATCTGAGTGAGATGCTGAAGTAA CP*RITDCFIIFSHLSEMLK* -1.255 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26171 LVYSADAMFYPTYTLSGTRR 20 SLAY-screened peptide P4521 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGTCTACAGCGCTGACGCGATGTTCTACCCCACTTATACCCTGTCGGGCACCAGGCGCTAA LVYSADAMFYPTYTLSGTRR* -1.255 0.000036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26172 MFHPCFTSAPDGSYLRRYVK 20 SLAY-screened peptide P4522 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTTCCATCCGTGTTTTACGTCTGCCCCCGATGGCTCGTATTTGCGCAGGTACGTTAAGTAA MFHPCFTSAPDGSYLRRYVK* -1.255 0.018897 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26173 VLWNLCPDLQGTEYVS 16 SLAY-screened peptide P4523 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCTCTGGAACCTTTGTCCTGACCTGCAGGGCACCGAGTACGTTAGTTAGTTCGGCAAGTAA VLWNLCPDLQGTEYVS*FGK* -1.254 0.018324 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26174 TSCYPYSYTSSGWDSLVIGL 20 SLAY-screened peptide P4524 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTCGTGCTACCCCTATAGCTACACGTCTTCCGGCTGGGACTCCTTGGTGATCGGTCTTTAA TSCYPYSYTSSGWDSLVIGL* -1.254 0.001416 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26175 HTTLFAATPGPMAAFPIIYLT 21 SLAY-screened peptide P4525 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACTACATTATTCGCAGCGACGCCCGGTCCCATGGCAGCCTTTCCGATTATTTATTTAACT HTTLFAATPGPMAAFPIIYLT -1.254 0.0272 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26176 AAFPIPTSRPRNFGRARLLL 20 SLAY-screened peptide P4526 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGCTTTCCCTATTCCCACTAGCCGGCCGCGTAATTTTGGCCGTGCCCGCCTCCTGCTGTAA AAFPIPTSRPRNFGRARLLL* -1.254 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26177 CINYIFYNTIRSDYVTHLVS 20 SLAY-screened peptide P4527 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCATCAATTACATCTTTTACAATACCATCCGTAGCGACTATGTGACCCACTTGGTGAGCTAA CINYIFYNTIRSDYVTHLVS* -1.254 0.007791 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26178 CFRARHSLDLKNIPLRLV 18 SLAY-screened peptide P4528 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTTTAGGGCGCGCCATAGTCTTGACCTTAAGAATATCCCTCTCAGGCTTGTTTAGTTCTAA CFRARHSLDLKNIPLRLV*F* -1.254 0.031395 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26179 WPWHTLYEALYLRYTTTSKS 20 SLAY-screened peptide P4529 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCCTGGCATACTCTGTATGAGGCTCTTTACCTGCGTTACACCACTACTTCTAAGTCGTAA WPWHTLYEALYLRYTTTSKS* -1.254 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26180 PLQCNHTLHHPWTSVIYGDM 20 SLAY-screened peptide P4530 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTGCAGTGCAACCACACTCTTCATCATCCGTGGACTTCCGTTATCTATGGGGACATGTAA PLQCNHTLHHPWTSVIYGDM* -1.254 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26181 EHHHSTQFYTNQRDCTIGPR 20 SLAY-screened peptide P4531 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCACCATCATAGTACCCAGTTTTATACCAACCAGCGCGATTGCACTATTGGGCCCCGCTAA EHHHSTQFYTNQRDCTIGPR* -1.254 0.002361 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26182 TLFTYLAVFFHLILAGHFFH 20 SLAY-screened peptide P4532 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTTTTCACCTACCTTGCCGTCTTCTTCCATCTCATCCTTGCCGGCCACTTTTTCCACTAA TLFTYLAVFFHLILAGHFFH* -1.253 0.015288 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26183 HCPPVYWFLNSSSGLDTPSP 20 SLAY-screened peptide P4533 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGCCCCCCCGTGTATTGGTTCCTCAATTCCAGCTCCGGCCTGGACACTCCGTCCCCCTAA HCPPVYWFLNSSSGLDTPSP* -1.253 0.000398 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26184 TECELTNRCLLPHIYIVFKP 20 SLAY-screened peptide P4534 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGAGTGCGAGCTCACGAATAGGTGCCTTTTGCCTCACATCTATATCGTGTTTAAGCCCTAA TECELTNRCLLPHIYIVFKP* -1.253 0.000208 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26185 AHVPSRASAHEGA 13 SLAY-screened peptide P4535 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCATGTTCCGAGCCGGGCGTCTGCTCACGAGGGAGCCTAATCTCGACACTACTCGTGCCCG AHVPSRASAHEGA*SRHYSCP -1.253 0.008102 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26186 CSPTRRRPAYCPSEDQAL 18 SLAY-screened peptide P4536 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTCTCCAACACGCCGGCGTCCGGCGTACTGCCCTTCAGAGGACCAGGCCCTATGATTAACT CSPTRRRPAYCPSEDQAL*LT -1.253 0.018915 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26187 CMYTNVVHPYPCQPTYYRCP 20 SLAY-screened peptide P4537 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCATGTACACTAATGTCGTCCACCCTTACCCCTGCCAGCCCACTTATTATCGTTGCCCCTAA CMYTNVVHPYPCQPTYYRCP* -1.253 0.001549 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26188 TSQNSIVFSTSGRRKKIRRGN 21 SLAY-screened peptide P4538 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTCGCAGAATTCTATTGTTTTTAGCACCTCTGGCCGTCGGAAGAAAATACGACGTGGTAAC TSQNSIVFSTSGRRKKIRRGN -1.252 0.000323 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26189 YDPPSSSAIHSFLTPWFFLC 20 SLAY-screened peptide P4539 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGACCCTCCTAGCTCTTCGGCTATCCACTCTTTTTTGACCCCCTGGTTTTTCCTTTGCTAA YDPPSSSAIHSFLTPWFFLC* -1.252 0.039065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26190 PVHLDMTSAHINSKRNTLTS 20 SLAY-screened peptide P4540 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTCCATTTGGATATGACGAGTGCGCACATTAACAGTAAGAGGAATACGCTGACTTCTTAA PVHLDMTSAHINSKRNTLTS* -1.252 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26191 SVDRRHKFELLLEHR 15 SLAY-screened peptide P4541 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGTTGACCGCCGTCATAAGTTTGAGCTCCTATTAGAGCATCGCTGACTACGCTACCTAACT SVDRRHKFELLLEHR*LRYLT -1.252 0.001802 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26192 TTDSSPSHAIESQRLDNTHY 20 SLAY-screened peptide P4542 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACTGATAGTAGCCCGTCCCATGCCATCGAGTCGCAGAGGCTCGACAACACCCATTACTAA TTDSSPSHAIESQRLDNTHY* -1.252 0.031237 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26193 ATCWHPLRPSVFTS 14 SLAY-screened peptide P4543 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACCTGCTGGCATCCCCTCCGTCCTTCTGTGTTTACCTCCTAGGAGCGCCCCTCCTCTTAA ATCWHPLRPSVFTS*ERPSS* -1.252 0.021849 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26194 RTCHGSTSTHSPALFQFFHY 20 SLAY-screened peptide P4544 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTACTTGCCATGGTTCGACCAGTACCCACAGTCCTGCCCTCTTTCAGTTTTTCCATTATTAA RTCHGSTSTHSPALFQFFHY* -1.251 0.002751 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26195 TETPNSATDTAHTETYCSYI 20 SLAY-screened peptide P4545 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGAGACCCCTAACAGTGCGACCGACACCGCCCATACTGAGACTTATTGCAGTTACATCTAA TETPNSATDTAHTETYCSYI* -1.251 0.000768 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26196 TVCPLCCRPLRRRIPALFPSN 21 SLAY-screened peptide P4546 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTGTGCCCGCTGTGCTGCAGGCCGCTTCGCCGCCGTATCCCAGCCCTTTTTCCGTCTAAC TVCPLCCRPLRRRIPALFPSN -1.251 0.001752 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26197 IDRRYLGTVSFA 12 SLAY-screened peptide P4547 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGACCGCCGTTACCTGGGCACTGTTTCGTTTGCCTAGATTAGCACCTTCCCTGGTGTTTAA IDRRYLGTVSFA*ISTFPGV* -1.25 0.026431 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26198 CHPGLYKKLRLYYLAYTECD 20 SLAY-screened peptide P4548 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACCCGGGCCTGTACAAGAAGTTGCGTCTGTATTATCTGGCTTATACTGAGTGTGATTAA CHPGLYKKLRLYYLAYTECD* -1.25 0.03364 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26199 TRCIPFLMLFVICPQRGTIPN 21 SLAY-screened peptide P4549 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCGGTGTATTCCCTTCCTTATGCTCTTCGTTATTTGCCCTCAACGCGGCACCATACCTAAC TRCIPFLMLFVICPQRGTIPN -1.25 0.000367 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26200 CLQIHPKLCLCEFYV 15 SLAY-screened peptide P4550 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCCAGATTCATCCGAAGCTTTGCCTCTGCGAGTTCTACGTTTAGAATGATGAGTGCTAA CLQIHPKLCLCEFYV*NDEC* -1.25 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26201 PCWGYLVLPRYSDFTKPLY 19 SLAY-screened peptide P4551 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGCTGGGGGTACCTCGTCTTGCCTAGGTATTCTGATTTCACTAAGCCGCTTTACTAGTAA PCWGYLVLPRYSDFTKPLY** -1.25 0.000134 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26202 PMDSSNDGSYNEGHKSIDYV 20 SLAY-screened peptide P4552 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATGGACTCTAGTAACGACGGCTCTTACAACGAGGGCCACAAGAGCATTGACTATGTCTAA PMDSSNDGSYNEGHKSIDYV* -1.25 0.000537 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26203 CEELPQCTRHHFDPFSNSVP 20 SLAY-screened peptide P4553 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGAGGAGCTGCCGCAGTGCACCAGGCATCATTTCGACCCGTTTAGTAACTCCGTCCCCTAA CEELPQCTRHHFDPFSNSVP* -1.25 0.000761 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26204 PCRRSRSHSPSRTNEPHLPP 20 SLAY-screened peptide P4554 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGTCGGCGGTCTCGTTCGCACTCCCCCTCTCGCACTAACGAGCCGCATCTTCCTCCGTAA PCRRSRSHSPSRTNEPHLPP* -1.249 0.004256 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26205 TCKCSQSSQHTNRQFNSNYP 20 SLAY-screened peptide P4555 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTGTAAGTGCTCGCAGTCTTCCCAGCATACCAATCGTCAGTTTAATTCCAACTATCCGTAA TCKCSQSSQHTNRQFNSNYP* -1.249 0.005024 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26206 VDLHLFLLFLSTTFYLRLKA 20 SLAY-screened peptide P4556 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGACCTCCACCTGTTTTTGCTCTTTCTCTCTACCACTTTCTACCTCCGCCTTAAGGCTTAA VDLHLFLLFLSTTFYLRLKA* -1.249 0.007748 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26207 IVTRSNTSTPPPITCLIIGL 20 SLAY-screened peptide P4557 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGTTACGCGCAGCAATACCAGCACCCCCCCCCCGATCACCTGTTTGATTATCGGGCTGTAA IVTRSNTSTPPPITCLIIGL* -1.249 0.024194 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26208 VLCPNRSPASYSNMIKELHI 20 SLAY-screened peptide P4558 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCTGTGTCCCAACAGGTCCCCGGCCTCCTACAGTAACATGATTAAGGAGCTGCACATCTAA VLCPNRSPASYSNMIKELHI* -1.249 0.000813 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26209 NDHYVPIHPGYCDPFDTYRV 20 SLAY-screened peptide P4559 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGATCACTATGTTCCGATTCATCCGGGGTACTGCGATCCGTTTGACACTTACAGGGTGTAA NDHYVPIHPGYCDPFDTYRV* -1.249 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26210 FAPLCCDNWHLPPVYPSADP 20 SLAY-screened peptide P4560 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGCTCCTTTGTGTTGTGATAACTGGCATCTTCCCCCGGTCTACCCCAGCGCCGACCCTTAA FAPLCCDNWHLPPVYPSADP* -1.249 0.001378 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26211 PRYCNWPSFYAYRHIDTIYV 20 SLAY-screened peptide P4561 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGCTACTGCAATTGGCCCTCTTTCTACGCGTATCGCCACATTGACACGATTTATGTCTAA PRYCNWPSFYAYRHIDTIYV* -1.249 0.007994 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26212 LDSMCRFFRRAIRRLTVRPGN 21 SLAY-screened peptide P4562 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGGACAGCATGTGTAGGTTTTTCCGGCGAGCGATTCGTCGCTTAACTGTACGTCCGGGTAAC LDSMCRFFRRAIRRLTVRPGN -1.248 0.000349 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26213 NALMPHPDIVHCMHNYSTLT 20 SLAY-screened peptide P4563 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGCTCTGATGCCTCATCCCGATATTGTGCATTGCATGCACAATTATTCTACGCTGACTTAA NALMPHPDIVHCMHNYSTLT* -1.248 0.045243 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26214 YNGKRRTGLCILRDAFGVKQ 20 SLAY-screened peptide P4564 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACAATGGCAAGCGTCGCACGGGTCTGTGTATCCTCCGCGACGCGTTTGGGGTTAAGCAGTAA YNGKRRTGLCILRDAFGVKQ* -1.248 0.005226 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26215 PTNYNAVWLITSLT 14 SLAY-screened peptide P4565 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCAATTATAACGCCGTTTGGCTGATTACGTCGCTCACCTAGTATGTTTATCAGAAGTAA PTNYNAVWLITSLT*YVYQK* -1.248 0.006167 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26216 PHIIMVISLTLRLRRTSGLCN 21 SLAY-screened peptide P4566 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCACATCATTATGGTGATCTCACTTACTTTACGCTTACGTCGAACATCCGGACTCTGTAAC PHIIMVISLTLRLRRTSGLCN -1.247 0.000423 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26217 RLLICAPAREHGSDMSN 17 SLAY-screened peptide P4567 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCTCCTCATTTGCGCCCCTGCGAGGGAGCACGGTAGCGATATGTCTAACTAGGCTTCTTAA RLLICAPAREHGSDMSN*AS* -1.247 0.00087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26218 MCFCNLCLRPALPPICYQTM 20 SLAY-screened peptide P4568 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTGTTTTTGTAACCTCTGCCTTCGGCCCGCCCTGCCCCCGATTTGCTACCAGACGATGTAA MCFCNLCLRPALPPICYQTM* -1.247 0.037433 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26219 TPVPPSVPDHSSHECKTTDA 20 SLAY-screened peptide P4569 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCCGTCCCTCCGTCCGTGCCCGATCATTCGAGTCATGAGTGCAAGACTACCGATGCGTAA TPVPPSVPDHSSHECKTTDA* -1.247 0.015126 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26220 LMSLPRIPKSVWLYASSSVP 20 SLAY-screened peptide P4570 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATGAGTCTTCCCCGTATTCCGAAGAGTGTTTGGCTCTATGCGAGCAGTTCCGTCCCTTAA LMSLPRIPKSVWLYASSSVP* -1.247 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26221 VSPGTSVYDVHMYIYYRTTN 20 SLAY-screened peptide P4571 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTCGCCTGGCACCTCGGTCTATGACGTCCACATGTATATTTACTACCGGACTACGAATTAA VSPGTSVYDVHMYIYYRTTN* -1.247 0.032438 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26222 QAADSLPNSCPITLRGPSTH 20 SLAY-screened peptide P4572 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGCCGCTGACTCCTTGCCTAACAGCTGCCCTATTACCCTCCGTGGGCCTTCCACCCACTAA QAADSLPNSCPITLRGPSTH* -1.247 0.021216 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26223 PDSALTDSSIWNPARWKPFI 20 SLAY-screened peptide P4573 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGATTCTGCGCTTACCGATTCCTCTATCTGGAATCCCGCTCGTTGGAAGCCTTTCATTTAA PDSALTDSSIWNPARWKPFI* -1.247 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26224 PAVFPTTSCAYCPVHTALTI 20 SLAY-screened peptide P4574 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTGTGTTTCCCACCACTTCTTGCGCTTATTGTCCGGTTCACACGGCGCTTACTATCTAA PAVFPTTSCAYCPVHTALTI* -1.247 0.027616 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26225 RGLILCTPAIVLSLTAASNL 20 SLAY-screened peptide P4575 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGGCCTCATCCTGTGCACGCCCGCGATCGTCTTGAGCCTTACGGCCGCTTCTAATTTGTAA RGLILCTPAIVLSLTAASNL* -1.246 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26226 GFLYSPTNSPFLISTP 16 SLAY-screened peptide P4576 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTTCTTGTATTCGCCTACGAATAGTCCTTTTCTCATCTCTACTCCCTAGCGTAGCAAGTAA GFLYSPTNSPFLISTP*RSK* -1.246 0.001922 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26227 QDHSTFCLSITLDLSFRFGP 20 SLAY-screened peptide P4577 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGATCATTCGACCTTCTGTTTGTCCATCACTCTTGACCTTTCTTTCCGGTTCGGTCCCTAA QDHSTFCLSITLDLSFRFGP* -1.246 0.000321 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26228 PPRSLRDDLSHCDVPAYYFI 20 SLAY-screened peptide P4578 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCCGGAGCCTTCGCGATGACCTTTCTCATTGTGACGTCCCCGCCTATTACTTTATTTAA PPRSLRDDLSHCDVPAYYFI* -1.246 0.001951 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26229 LPCGCFNSTYGSNPTSIVLL 20 SLAY-screened peptide P4579 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCGTGCGGCTGTTTCAATTCGACTTATGGCAGCAACCCTACTAGCATCGTTTTGCTCTAA LPCGCFNSTYGSNPTSIVLL* -1.245 0.033909 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26230 RSIYRNAAALNHVNNTLRNI 20 SLAY-screened peptide P4580 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCTATTTATCGCAATGCTGCTGCCCTCAATCATGTCAACAACACCTTGCGTAACATTTAA RSIYRNAAALNHVNNTLRNI* -1.245 0.042825 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26231 SGRLLHRLSTDLTDDYYDCM 20 SLAY-screened peptide P4581 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGGCCGGCTCTTGCATCGGCTTTCGACCGACCTGACTGATGACTACTATGATTGCATGTAA SGRLLHRLSTDLTDDYYDCM* -1.245 0.000273 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26232 KTSYDTNYFFCYL 13 SLAY-screened peptide P4582 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGACCTCTTATGACACCAATTATTTTTTCTGTTATTTGTAGTATCATAGACTAACCAGTAAC KTSYDTNYFFCYL*YHRLTSN -1.244 0.006572 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26233 SQYFCASASPVSVDLPIPSR 20 SLAY-screened peptide P4583 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCAGTACTTTTGCGCCTCTGCTTCGCCGGTTTCTGTGGACCTTCCTATTCCGTCCCGGTAA SQYFCASASPVSVDLPIPSR* -1.244 0.000068 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26234 QSRYCACNSMCSYNTMGILL 20 SLAY-screened peptide P4584 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTCCCGGTACTGTGCGTGTAACTCCATGTGCTCCTACAATACGATGGGTATCCTCCTGTAA QSRYCACNSMCSYNTMGILL* -1.244 0.010379 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26235 CDPDPYSAMFLLATSAHTPD 20 SLAY-screened peptide P4585 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGACCCCGACCCTTACAGTGCGATGTTCCTGCTCGCCACGTCTGCGCATACTCCCGATTAA CDPDPYSAMFLLATSAHTPD* -1.244 0.042762 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26236 ALQETSRYGLPSLNCLTLIA 20 SLAY-screened peptide P4586 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCTGCAGGAGACCTCCCGCTATGGCCTCCCGAGCCTCAACTGCCTTACCCTGATTGCTTAA ALQETSRYGLPSLNCLTLIA* -1.244 0.028082 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26237 PPTILT 6 SLAY-screened peptide P4587 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTACCATTTTGACCTAGATTCTGATGTCCTCTATGATTACTAAATGCTTTATAACTAAC PPTILT*ILMSSMITKCFITN -1.244 0.019845 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26238 DAQSLLSHPAHHLKEPSPDS 20 SLAY-screened peptide P4588 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGCCCAGAGCCTGCTCTCGCATCCTGCGCACCACCTTAAGGAGCCCAGCCCCGACTCCTAA DAQSLLSHPAHHLKEPSPDS* -1.243 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26239 TLVCPHPTSYPHTSSCSNCT 20 SLAY-screened peptide P4589 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCTGGTGTGCCCCCATCCGACCTCTTATCCGCATACTTCCTCGTGTTCCAACTGCACCTAA TLVCPHPTSYPHTSSCSNCT* -1.243 0.003229 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26240 IHSGCHYKLPCCNFCWQCSL 20 SLAY-screened peptide P4590 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCATTCCGGGTGCCATTACAAGTTGCCCTGCTGCAACTTCTGCTGGCAGTGTTCCCTCTAA IHSGCHYKLPCCNFCWQCSL* -1.243 0.040231 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26241 MITSSPYCYCPIFYNYLSTN 20 SLAY-screened peptide P4591 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGATTACGAGCAGTCCCTACTGTTATTGCCCTATCTTTTACAATTATCTCTCTACTAATTAA MITSSPYCYCPIFYNYLSTN* -1.243 0.000018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26242 ICRSRYGLGFTSSNWDNTTP 20 SLAY-screened peptide P4592 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTGTCGGTCTCGCTACGGCCTTGGCTTCACCTCTTCCAATTGGGATAATACGACTCCGTAA ICRSRYGLGFTSSNWDNTTP* -1.243 0.026415 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26243 PCCSHTTCVTGLYIA 15 SLAY-screened peptide P4593 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTTGCTCCCATACTACCTGCGTTACTGGGCTCTACATTGCCTAGAATAATTAGAACTAA PCCSHTTCVTGLYIA*NN*N* -1.243 0.00104 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26244 CLYTKQATFDDPPALDFQVI 20 SLAY-screened peptide P4594 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCTGTATACTAAGCAGGCCACCTTCGACGACCCTCCCGCGTTGGATTTCCAGGTGATCTAA CLYTKQATFDDPPALDFQVI* -1.243 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26245 HSHRSATRLTPCHGITQRLDF 21 SLAY-screened peptide P4595 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCTCACCGTTCCGCGACTCGTTTGACCCCGTGTCATGGTATCACTCAGCGCCTCGACTTC HSHRSATRLTPCHGITQRLDF -1.242 0.027328 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26246 HTGTDILAPCPPSIYEVLVI 20 SLAY-screened peptide P4596 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACTGGTACGGACATCCTTGCCCCGTGTCCGCCGTCCATCTATGAGGTCCTTGTCATCTAA HTGTDILAPCPPSIYEVLVI* -1.242 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26247 ALVWHHCFLPFLIMRKWHMC 20 SLAY-screened peptide P4597 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCTCGTGTGGCACCATTGCTTCCTTCCTTTCCTCATTATGCGCAAGTGGCACATGTGCTAA ALVWHHCFLPFLIMRKWHMC* -1.242 0.043768 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26248 LHGPRRRFKWRRRYDGSSPT 20 SLAY-screened peptide P4598 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCACGGGCCGCGCCGTCGGTTCAAGTGGCGGCGCCGTTACGATGGCTCGAGTCCCACCTAA LHGPRRRFKWRRRYDGSSPT* -1.242 0.04457 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26249 DYTAPYSDPRCYRPFRLLYH 20 SLAY-screened peptide P4599 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTACACCGCGCCCTATAGCGACCCCCGGTGCTATAGGCCTTTCCGTCTCCTGTACCATTAA DYTAPYSDPRCYRPFRLLYH* -1.242 0.000039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26250 HDRGDPLMPYSTNLTTFSTT 20 SLAY-screened peptide P4600 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGACCGGGGCGACCCTCTTATGCCGTACTCTACTAACCTTACGACCTTTAGCACGACCTAA HDRGDPLMPYSTNLTTFSTT* -1.241 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26251 RPSAHYNDLQMSVEDSRSDH 20 SLAY-screened peptide P4601 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCTAGTGCTCATTATAACGATCTGCAGATGTCTGTTGAGGACTCCCGTTCTGATCATTAA RPSAHYNDLQMSVEDSRSDH* -1.241 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26252 CFDGCYRTTSSCPVPRFFTF 20 SLAY-screened peptide P4602 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTTTGACGGCTGCTACCGCACTACCTCTTCCTGCCCGGTTCCCAGGTTCTTTACTTTTTAA CFDGCYRTTSSCPVPRFFTF* -1.241 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26253 PDWYHDWPTYKLCTISCAGD 20 SLAY-screened peptide P4603 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGACTGGTACCACGACTGGCCTACCTATAAGCTTTGTACTATCAGCTGTGCGGGTGATTAA PDWYHDWPTYKLCTISCAGD* -1.241 0.001813 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26254 SNIARGIINY 10 SLAY-screened peptide P4604 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTAACATTGCCCGTGGGATCATTAACTATTAGTGGCAGGTTTTGACGGTCTTCTTCTTTTAA SNIARGIINY*WQVLTVFFF* -1.241 0.001417 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26255 RTCNRAPWRTLCIISRALFY 20 SLAY-screened peptide P4605 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACCTGTAACCGGGCTCCTTGGCGCACGTTGTGCATCATTTCGAGGGCCCTCTTTTATTAA RTCNRAPWRTLCIISRALFY* -1.24 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26256 AADVYMLHYFRYFPPSVSEV 20 SLAY-screened peptide P4606 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGCTGACGTCTACATGCTCCACTACTTTCGGTATTTTCCTCCCAGTGTCTCTGAGGTGTAA AADVYMLHYFRYFPPSVSEV* -1.24 0.001558 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26257 IIHFFITLYLASHYAPSIES 20 SLAY-screened peptide P4607 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTATTCACTTCTTTATTACCCTTTATTTGGCCAGCCATTATGCCCCTTCTATCGAGTCGTAA IIHFFITLYLASHYAPSIES* -1.24 0.025872 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26258 WYLSTGIRYDRNHTDWHFSM 20 SLAY-screened peptide P4608 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTATCTCAGCACTGGGATTCGCTACGACCGCAACCACACGGATTGGCATTTCAGCATGTAA WYLSTGIRYDRNHTDWHFSM* -1.24 0.01595 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26259 WTVTVDFRPRLKEDSRYYDS 20 SLAY-screened peptide P4609 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGACCGTTACCGTGGATTTCCGGCCCCGCCTTAAGGAGGACTCTCGCTACTATGACAGTTAA WTVTVDFRPRLKEDSRYYDS* -1.24 0.049093 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26260 APYCTPFSYFYYGPTLTYLP 20 SLAY-screened peptide P4610 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCCTATTGTACCCCCTTTTCCTACTTCTACTATGGGCCGACTCTGACGTATTTGCCTTAA APYCTPFSYFYYGPTLTYLP* -1.24 0.000467 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26261 TDAVRVFSFTSD 12 SLAY-screened peptide P4611 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGACGCCGTTAGGGTGTTCAGTTTTACCTCTGATTAGAGCTGTCTCACCTAGTATCAGTAA TDAVRVFSFTSD*SCLT*YQ* -1.24 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26262 SARPSANTTPAIIVSCYELV 20 SLAY-screened peptide P4612 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCCCGTCCCTCCGCCAATACTACGCCCGCTATCATCGTCTCGTGCTACGAGCTCGTTTAA SARPSANTTPAIIVSCYELV* -1.239 0.000162 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26263 SCRPSRSLFPYYNIVMVNRF 20 SLAY-screened peptide P4613 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTGCCGCCCCTCGCGGTCTCTCTTCCCTTATTACAACATTGTTATGGTCAATAGGTTCTAA SCRPSRSLFPYYNIVMVNRF* -1.239 0.000615 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26264 CHRFKVRNCNHAGIVVLTYI 20 SLAY-screened peptide P4614 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCACAGGTTTAAGGTCCGTAACTGCAACCACGCCGGTATCGTGGTCCTCACGTATATTTAA CHRFKVRNCNHAGIVVLTYI* -1.239 0.00003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26265 ALCYRQMPMSSSFSNNVHSD 20 SLAY-screened peptide P4615 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCTCTGCTATAGGCAGATGCCCATGTCCAGCTCTTTCTCGAACAACGTTCACTCCGACTAA ALCYRQMPMSSSFSNNVHSD* -1.239 0.009023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26266 LSAVDCHLHSIYGAFPLAVW 20 SLAY-screened peptide P4616 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCCGCCGTTGACTGCCATCTTCATAGCATCTACGGGGCCTTCCCGCTGGCCGTGTGGTAA LSAVDCHLHSIYGAFPLAVW* -1.239 0.001591 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26267 ANGNRSMYGIIHAISCVWLS 20 SLAY-screened peptide P4617 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAACGGGAACCGTAGCATGTACGGTATCATTCACGCTATTTCTTGTGTTTGGCTGTCCTAA ANGNRSMYGIIHAISCVWLS* -1.239 0.022594 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26268 RPLNPPYCGCPVLLPWAEIT 20 SLAY-screened peptide P4618 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCGCTGAACCCCCCTTACTGCGGGTGCCCTGTGCTGCTGCCCTGGGCGGAGATCACCTAA RPLNPPYCGCPVLLPWAEIT* -1.239 0.000588 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26269 NQPTSQRHECIDSAALPIIC 20 SLAY-screened peptide P4619 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCAGCCCACTAGTCAGCGTCATGAGTGCATTGACAGTGCCGCGCTCCCCATTATCTGCTAA NQPTSQRHECIDSAALPIIC* -1.239 0.000401 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26270 ASSGFFDRYTYCQFPMWQYL 20 SLAY-screened peptide P4620 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTCCTCCGGGTTTTTCGACCGCTACACGTACTGCCAGTTTCCCATGTGGCAGTACCTTTAA ASSGFFDRYTYCQFPMWQYL* -1.238 0.015255 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26271 RPLARSQNSHHG 12 SLAY-screened peptide P4621 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCTCTCGCTAGGTCTCAGAATTCCCATCATGGCTGACTAACACGTGCCGTCGCTCTTAAC RPLARSQNSHHG*LTRAVALN -1.238 0.001717 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26272 MALRHDYANNFYVVNVWNLY 20 SLAY-screened peptide P4622 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGCCCTCCGGCACGACTACGCTAACAACTTTTATGTTGTGAATGTGTGGAACCTTTACTAA MALRHDYANNFYVVNVWNLY* -1.237 0.000067 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26273 PYWCPRNRLWPPSYLSHINS 20 SLAY-screened peptide P4623 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATTGGTGTCCGAGGAATCGCTTGTGGCCGCCTAGTTATTTGAGTCACATCAATTCCTAA PYWCPRNRLWPPSYLSHINS* -1.237 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26274 HVSSELLHRSDKHSTRPYP 19 SLAY-screened peptide P4624 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGTGAGCTCGGAGCTTCTGCACCGGAGTGATAAGCATAGTACCCGCCCTTACCCCTAGTAA HVSSELLHRSDKHSTRPYP** -1.237 0.004625 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26275 SHIISHAVRRPRYMDSRKFL 20 SLAY-screened peptide P4625 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCACATTATTTCGCATGCGGTCCGCCGCCCGCGTTATATGGATAGCCGCAAGTTCCTGTAA SHIISHAVRRPRYMDSRKFL* -1.237 0.038155 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26276 HHLRAKHDYIF 11 SLAY-screened peptide P4626 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCATCTCCGCGCGAAGCATGATTATATTTTTTAGGCGTCCTTGCTCCCTAACAATAGGTAA HHLRAKHDYIF*ASLLPNNR* -1.236 0.000036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26277 LIPYFIHHLYRTLVTQIPTR 20 SLAY-screened peptide P4627 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATCCCCTATTTTATCCATCACCTCTACAGGACTCTCGTTACCCAGATTCCCACCCGTTAA LIPYFIHHLYRTLVTQIPTR* -1.236 0.002528 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26278 PRAPDAMRRTFTMSFITLILN 21 SLAY-screened peptide P4628 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTGCCCCCGATGCTATGCGCCGCACCTTTACAATGTCTTTCATAACGCTGATACTTAAC PRAPDAMRRTFTMSFITLILN -1.236 0.024888 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26279 TEDAHLYATACPHAPSVNRH 20 SLAY-screened peptide P4629 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGAGGATGCCCATCTCTACGCTACTGCGTGCCCCCACGCTCCGTCGGTTAACAGGCATTAA TEDAHLYATACPHAPSVNRH* -1.236 0.001759 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26280 GSVACTCRMRGHCHYSTVRI 20 SLAY-screened peptide P4630 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTCCGTCGCTTGCACGTGCCGGATGCGCGGCCACTGTCATTATTCCACGGTTCGTATCTAA GSVACTCRMRGHCHYSTVRI* -1.236 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26281 LPVHLGNNKPFSAWNNHSAV 20 SLAY-screened peptide P4631 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCGGTCCATCTTGGGAATAATAAGCCTTTTTCTGCCTGGAATAACCATTCTGCGGTTTAA LPVHLGNNKPFSAWNNHSAV* -1.236 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26282 ERHRAAFLSGTFHPVNSSNH 20 SLAY-screened peptide P4632 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCGCCACCGCGCCGCCTTTCTTTCTGGCACGTTTCATCCTGTCAATTCTAGCAACCATTAA ERHRAAFLSGTFHPVNSSNH* -1.236 0.000512 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26283 PTGQCTYVAPWYGYQSLWNK 20 SLAY-screened peptide P4633 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCGGTCAGTGCACTTATGTTGCCCCCTGGTACGGTTATCAGAGCCTCTGGAACAAGTAA PTGQCTYVAPWYGYQSLWNK* -1.235 0.000182 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26284 LLLYFWIGRMSIDSSNCVFQ 20 SLAY-screened peptide P4634 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTGCTTTACTTCTGGATTGGTCGTATGTCTATTGATAGTTCGAACTGTGTGTTCCAGTAA LLLYFWIGRMSIDSSNCVFQ* -1.235 0.011822 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26285 TPFRVFWLLGLIGIRIPRFLN 21 SLAY-screened peptide P4635 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCGTTTCGGGTCTTCTGGTTACTCGGCTTAATTGGAATACGCATACCTAGGTTTCTTAAC TPFRVFWLLGLIGIRIPRFLN -1.235 0.000065 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26286 AFRTPYNMFDILQVRCIRPP 20 SLAY-screened peptide P4636 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTTTCGCACTCCTTACAACATGTTTGACATTCTCCAGGTGCGTTGCATCAGGCCCCCTTAA AFRTPYNMFDILQVRCIRPP* -1.235 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26287 LYPRLVRVHQHRCFPYFDLTE 21 SLAY-screened peptide P4637 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTACCCCCGATTGGTCCGAGTTCATCAGCACCGCTGTTTCCCTTATTTTGACTTAACTGAG LYPRLVRVHQHRCFPYFDLTE -1.235 0.000106 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26288 QFNNR 5 SLAY-screened peptide P4638 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTTTAACAATCGTTAGGCTCTCTATACGGCTACCAACATTGTCCGTTTTTTGGGTAAGTAA QFNNR*ALYTATNIVRFLGK* -1.234 0.008637 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26289 VLPTRDKPDVLPCFTATLIV 20 SLAY-screened peptide P4639 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCTTCCGACTCGGGATAAGCCGGATGTGCTTCCGTGCTTCACTGCCACCTTGATTGTCTAA VLPTRDKPDVLPCFTATLIV* -1.234 0.000786 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26290 HDLARHSHTSYDPADSINLR 20 SLAY-screened peptide P4640 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGATTTGGCCCGGCATAGCCATACGAGTTATGACCCCGCCGACTCCATCAATTTGAGGTAA HDLARHSHTSYDPADSINLR* -1.234 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26291 LSSFGQACKCVTL 13 SLAY-screened peptide P4641 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCCAGTTTTGGGCAGGCGTGCAAGTGTGTTACCCTGTAGCGCTCCGAGAGTCTCTCGTAA LSSFGQACKCVTL*RSESLS* -1.234 0.000597 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26292 CRSMSRPTPPDSWLDNSRVR 20 SLAY-screened peptide P4642 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAGGTCTATGAGTAGGCCCACCCCCCCTGATAGTTGGCTCGACAACTCCAGGGTTCGCTAA CRSMSRPTPPDSWLDNSRVR* -1.234 0.037597 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26293 FRNIQDDFIHYNSINRVVIW 20 SLAY-screened peptide P4643 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCGTAACATTCAGGATGACTTCATCCACTACAATTCGATCAATCGCGTCGTTATCTGGTAA FRNIQDDFIHYNSINRVVIW* -1.234 0.000696 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26294 HPFDEKSHHCSDSYLSVSRF 20 SLAY-screened peptide P4644 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGTTTGACGAGAAGAGCCACCACTGTAGCGATAGTTACCTTTCCGTGAGCCGGTTCTAA HPFDEKSHHCSDSYLSVSRF* -1.234 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26295 MGSPIGWTVIPTVFT 15 SLAY-screened peptide P4645 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGGTTCTCCCATCGGTTGGACTGTAATACCCACAGTGTTCACGTGAAGACGAAGGTCTAAC MGSPIGWTVIPTVFT*RRRSN -1.233 0.000633 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26296 LDEHYSQGHNSKRFNLFLTN 20 SLAY-screened peptide P4646 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGATGAGCATTACTCTCAGGGCCATAATTCTAAGCGCTTTAACTTGTTCTTGACGAACTAA LDEHYSQGHNSKRFNLFLTN* -1.233 0.02077 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26297 IHRRISTVHRDP 12 SLAY-screened peptide P4647 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCATCGGCGTATCTCTACGGTTCACCGTGATCCCTAGAATGATTCGTAGCTTCGCCATTAA IHRRISTVHRDP*NDS*LRH* -1.233 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26298 PPKGRRICYLHVPHDLPTSTN 21 SLAY-screened peptide P4648 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCGAAGGGGCGGCGCATTTGTTATCTCCACGTTCCGCATGACCTACCTACTTCAACTAAC PPKGRRICYLHVPHDLPTSTN -1.233 0.001654 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26299 PTDDPDSSNNMCRRLHIGLV 20 SLAY-screened peptide P4649 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCGACGATCCCGACAGCAGCAACAACATGTGTCGTCGCCTGCACATCGGTCTCGTTTAA PTDDPDSSNNMCRRLHIGLV* -1.233 0.000441 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26300 HTLVPHTCHCIPPHGFMIYI 20 SLAY-screened peptide P4650 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACCCTTGTCCCCCATACGTGCCACTGTATCCCTCCTCACGGTTTTATGATTTATATTTAA HTLVPHTCHCIPPHGFMIYI* -1.233 0.000401 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26301 LTVPLY 6 SLAY-screened peptide P4651 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGACTGTTCCTCTCTACTAGACTTCTGTCTCTAATCGCTAGAAGTATCCGGTGCGCAAGTAA LTVPLY*TSVSNR*KYPVRK* -1.232 0.000691 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26302 RFHINTACQFPEPTNIP 17 SLAY-screened peptide P4652 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTCCACATTAATACCGCCTGCCAGTTCCCTGAGCCGACGAATATCCCTTAGAATTAGTAA RFHINTACQFPEPTNIP*N** -1.232 0.000713 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26303 ATRVHTTGPMNDAFLQCRYL 20 SLAY-screened peptide P4653 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACCCGTGTGCATACCACCGGTCCTATGAACGATGCTTTTCTGCAGTGCCGTTACCTCTAA ATRVHTTGPMNDAFLQCRYL* -1.232 0.014504 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26304 AGGIALTTHRWASYSLPGNK 20 SLAY-screened peptide P4654 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGGCGGGATCGCCCTGACCACCCATAGGTGGGCCTCCTATTCTCTGCCCGGTAACAAGTAA AGGIALTTHRWASYSLPGNK* -1.232 0.003362 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26305 AITNDGIRNNTLKLKCRWAG 20 SLAY-screened peptide P4655 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGATTACTAATGACGGCATTCGTAACAATACGCTTAAGCTGAAGTGCCGCTGGGCTGGCTAA AITNDGIRNNTLKLKCRWAG* -1.232 0.019702 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26306 ALAATRSPQRPSFPDSCGDR 20 SLAY-screened peptide P4656 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCTCGCCGCCACTCGGAGCCCCCAGCGTCCCTCCTTCCCTGATAGCTGCGGTGACCGTTAA ALAATRSPQRPSFPDSCGDR* -1.232 0.002014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26307 SSMFHCLLTACCYTLGMTPI 20 SLAY-screened peptide P4657 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCCATGTTTCATTGTCTCCTTACTGCTTGCTGTTACACCCTGGGTATGACTCCTATCTAA SSMFHCLLTACCYTLGMTPI* -1.231 0.030548 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26308 LCPPARLHRPGESQPPLLLL 20 SLAY-screened peptide P4658 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTGCCCGCCTGCGCGCCTCCACCGTCCTGGGGAGTCTCAGCCTCCCCTTTTGTTGCTCTAA LCPPARLHRPGESQPPLLLL* -1.231 0.001447 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26309 CRPSIGYTDQPFVDLDQFII 20 SLAY-screened peptide P4659 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAGGCCTTCCATTGGTTATACTGACCAGCCTTTTGTTGATCTTGATCAGTTTATCATTTAA CRPSIGYTDQPFVDLDQFII* -1.231 0.001002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26310 EDRKHTNHSSYCIPLDIVDS 20 SLAY-screened peptide P4660 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGATCGTAAGCACACCAACCACTCCTCCTATTGCATCCCCCTCGACATCGTTGATTCTTAA EDRKHTNHSSYCIPLDIVDS* -1.231 0.007854 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26311 NRPTTALMCPYWI 13 SLAY-screened peptide P4661 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCGCCCCACTACCGCTCTCATGTGTCCTTACTGGATTTAGCTTCACTACAGGCGCGCGTAA NRPTTALMCPYWI*LHYRRA* -1.231 0.000167 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26312 FFHYYPFRVTPCTISSIYYS 20 SLAY-screened peptide P4662 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTTTCACTACTACCCTTTTCGCGTCACTCCCTGCACTATTTCTAGCATTTATTATAGCTAA FFHYYPFRVTPCTISSIYYS* -1.231 0.000486 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26313 PTYYVRCAYNRDPPFLSATA 20 SLAY-screened peptide P4663 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACCTACTACGTTCGGTGTGCGTATAACCGTGATCCTCCCTTCTTGTCCGCGACCGCGTAA PTYYVRCAYNRDPPFLSATA* -1.23 0.026039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26314 SASFLCTAIYDRL 13 SLAY-screened peptide P4664 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGCTTCTTTCCTGTGCACCGCTATTTACGATCGGTTGTAGTATGTTTATACTGTGACTTAA SASFLCTAIYDRL*YVYTVT* -1.23 0.003282 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26315 VPMATCTPPRGSIQSVDGES 20 SLAY-screened peptide P4665 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCCCATGGCCACTTGCACGCCCCCTCGGGGTTCTATTCAGTCCGTCGACGGGGAGTCCTAA VPMATCTPPRGSIQSVDGES* -1.23 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26316 PFHEHDATRP 10 SLAY-screened peptide P4666 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTTCACGAGCACGATGCCACTAGGCCTTAGCGGAGCACTAACTGTAATCGGACCGCGTAA PFHEHDATRP*RSTNCNRTA* -1.23 0.00163 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26317 PRRRFDPSCYQLYSLTMYDN 20 SLAY-screened peptide P4667 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTCGCCGTTTCGACCCGTCCTGTTATCAGCTGTACTCTCTCACTATGTATGATAACTAA PRRRFDPSCYQLYSLTMYDN* -1.23 0.046243 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26318 GAHSCPAIITLPHRLAIV 18 SLAY-screened peptide P4668 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGGCGCACTCCTGTCCGGCCATTATCACCCTCCCTCACCGCCTGGCGATTGTTTAGTACTAA GAHSCPAIITLPHRLAIV*Y* -1.23 0.003652 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26319 RSAAFAIGSTDGTLTSNAYS 20 SLAY-screened peptide P4669 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAGCGCCGCCTTCGCCATCGGCTCTACTGACGGCACGCTCACTAGCAATGCCTACTCCTAA RSAAFAIGSTDGTLTSNAYS* -1.229 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26320 DIPVSSIN 8 SLAY-screened peptide P4670 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATATCCCCGTTTCTAGCATCAACTAGAGGCACTATTCTATGCTCGCCCTGTAGAACCACTAA DIPVSSIN*RHYSMLAL*NH* -1.229 0.000679 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26321 PGCTPLVMTSFNPWYAMTCC 20 SLAY-screened peptide P4671 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGTTGCACCCCGTTGGTCATGACTAGCTTTAACCCCTGGTACGCCATGACCTGTTGTTAA PGCTPLVMTSFNPWYAMTCC* -1.228 0.003504 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26322 SLLRFVCALARRFASDYYRG 20 SLAY-screened peptide P4672 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCTCCTGCGCTTTGTTTGCGCGCTCGCGCGGCGTTTCGCCTCCGACTACTATAGGGGCTAA SLLRFVCALARRFASDYYRG* -1.228 0.009341 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26323 GLSNTCEGYFPWPYNRLFYY 20 SLAY-screened peptide P4673 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCTTAGTAACACTTGTGAGGGTTACTTTCCTTGGCCGTACAATCGCTTGTTCTACTATTAA GLSNTCEGYFPWPYNRLFYY* -1.228 0.004436 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26324 LYEI 4 SLAY-screened peptide P4674 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTATGAGATTTAGGTGTAGCGTACCTTTGACAGTAAGAGCACTAATAATTACTTGAACTAA LYEI*V*RTFDSKSTNNYLN* -1.228 0.011154 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26325 CLLVPHAWLLY 11 SLAY-screened peptide P4675 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCTCCTGGTCCCTCACGCGTGGTTGCTTTATTAGAAGCCCGGCATTTTTTAGTGGTTTTAA CLLVPHAWLLY*KPGIF*WF* -1.228 0.002396 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26326 RPPYDYQHYWRHCHNLCEQF 20 SLAY-screened peptide P4676 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCCCCTTATGACTACCAGCACTATTGGCGGCACTGCCATAATCTTTGTGAGCAGTTCTAA RPPYDYQHYWRHCHNLCEQF* -1.227 0.030873 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26327 PSRSLKCMWSATHDSTDNFV 20 SLAY-screened peptide P4677 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCGCGGAGCCTTAAGTGTATGTGGAGCGCCACGCACGATTCCACTGATAACTTCGTTTAA PSRSLKCMWSATHDSTDNFV* -1.227 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26328 LAYTLVDCKTFSIRASPKRP 20 SLAY-screened peptide P4678 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGCCTACACGCTGGTTGACTGTAAGACTTTTTCCATCCGGGCTTCTCCCAAGAGGCCGTAA LAYTLVDCKTFSIRASPKRP* -1.227 0.008722 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26329 ILGEWIHNFLHTRQHNRMAD 20 SLAY-screened peptide P4679 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCTTGGCGAGTGGATCCATAATTTCCTGCATACTCGCCAGCATAATCGGATGGCTGACTAA ILGEWIHNFLHTRQHNRMAD* -1.227 0.018601 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26330 VNPSVCLPSGVYTILPLVTE 20 SLAY-screened peptide P4680 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTAACCCGTCTGTCTGCCTCCCCAGCGGTGTCTATACGATTCTCCCGCTTGTCACCGAGTAA VNPSVCLPSGVYTILPLVTE* -1.227 0.037849 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26331 PHGADLLPNNAPVNVCVFHSN 21 SLAY-screened peptide P4681 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCATGGCGCTGATCTGCTCCCTAACAACGCTCCCGTCAATGTCTGCGTTTTCCATAGTAAC PHGADLLPNNAPVNVCVFHSN -1.227 0.015962 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26332 PRARNLLPEPYRCGAFFIPL 20 SLAY-screened peptide P4682 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGGGCCCGCAACCTTCTTCCCGAGCCCTACCGCTGTGGGGCCTTTTTTATTCCTCTGTAA PRARNLLPEPYRCGAFFIPL* -1.226 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26333 IPYGPGYVLILRVSVNFFCG 20 SLAY-screened peptide P4683 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCCCTATGGCCCCGGCTATGTCCTTATCCTGCGTGTGAGCGTGAATTTCTTTTGCGGCTAA IPYGPGYVLILRVSVNFFCG* -1.226 0.01391 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26334 SLFDDTPRYTWSSANNYLYC 20 SLAY-screened peptide P4684 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTTGTTTGATGACACGCCGCGCTACACCTGGTCTTCCGCCAACAATTATCTGTATTGCTAA SLFDDTPRYTWSSANNYLYC* -1.226 0.000132 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26335 AHSSFINHCHFCIAYPVNTR 20 SLAY-screened peptide P4685 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCACAGCAGCTTCATTAACCACTGTCATTTTTGCATTGCCTATCCCGTTAATACGAGGTAA AHSSFINHCHFCIAYPVNTR* -1.226 0.000793 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26336 RVPKCLLPGATVPLYMVVTA 20 SLAY-screened peptide P4686 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGTTCCGAAGTGTCTCCTGCCGGGCGCTACCGTCCCCCTTTATATGGTTGTCACGGCGTAA RVPKCLLPGATVPLYMVVTA* -1.226 0.000682 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26337 PRPMSVNVTSVDV 13 SLAY-screened peptide P4687 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTCCCATGTCGGTTAATGTTACTTCCGTTGATGTCTAGATCCATCCTGGTAGGCGGTAA PRPMSVNVTSVDV*IHPGRR* -1.225 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26338 PRPTNANFGS 10 SLAY-screened peptide P4688 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCCCCACCAACGCGAACTTTGGCTCCTAGTAGCGTTAGTACAGTGCCGGTATCTGTTAA PRPTNANFGS**R*YSAGIC* -1.225 0.00891 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26339 KPCIACTYRSLSPALLYINL 20 SLAY-screened peptide P4689 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCCGTGCATTGCGTGTACTTACCGGTCTCTGTCCCCTGCCTTGCTTTACATTAACCTGTAA KPCIACTYRSLSPALLYINL* -1.225 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26340 PMGVKIEALRPAEGNCTAAI 20 SLAY-screened peptide P4690 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATGGGCGTTAAGATTGAGGCCCTTAGGCCCGCTGAGGGCAATTGCACGGCTGCGATTTAA PMGVKIEALRPAEGNCTAAI* -1.225 0.003964 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26341 LQHETVH 7 SLAY-screened peptide P4691 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCAGCATGAGACTGTCCATTAGCTCTATCATTTGCCTACTCAGCGTCATCACTCCCACTAA LQHETVH*LYHLPTQRHHSH* -1.225 0.001547 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26342 LSGIGPYCPLVAHGSASTGQ 20 SLAY-screened peptide P4692 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTCTGGCATCGGGCCTTACTGTCCCCTTGTCGCTCATGGCTCTGCCAGCACGGGTCAGTAA LSGIGPYCPLVAHGSASTGQ* -1.225 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26343 PARPSGTIY 9 SLAY-screened peptide P4693 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTAGGCCGTCGGGCACGATTTACTAGCCCATCTAGACCCCCTCCTCGTTCACTCGTTAA PARPSGTIY*PI*TPSSFTR* -1.224 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26344 PGHKYRALVNIQFNSHWYSR 20 SLAY-screened peptide P4694 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGGCCACAAGTATCGGGCGCTGGTCAACATTCAGTTCAACAGTCACTGGTACAGCCGTTAA PGHKYRALVNIQFNSHWYSR* -1.224 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26345 HKLQRVRRDTTDPLSGFRRH 20 SLAY-screened peptide P4695 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAAGCTCCAGAGGGTCCGCCGCGATACTACCGACCCGCTGTCCGGCTTTCGCCGGCACTAA HKLQRVRRDTTDPLSGFRRH* -1.224 0.013347 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26346 CLLCHSFHLWRFTVIVLIALN 21 SLAY-screened peptide P4696 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTTGCTGTGCCACAGCTTCCACCTGTGGAGATTCACTGTGATCGTACTTATAGCCCTTAAC CLLCHSFHLWRFTVIVLIALN -1.224 0.000104 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26347 EPSVTRTYWPQCITPEYASI 20 SLAY-screened peptide P4697 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCCCTCTGTCACTAGGACCTACTGGCCGCAGTGTATCACGCCGGAGTATGCTAGCATTTAA EPSVTRTYWPQCITPEYASI* -1.223 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26348 TSHASHFTYHLSESQISNFY 20 SLAY-screened peptide P4698 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCTCATGCGTCCCACTTCACTTACCACCTTTCTGAGAGTCAGATTTCTAATTTTTATTAA TSHASHFTYHLSESQISNFY* -1.223 0.046408 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26349 TTTAPSACKLNYTFCPTLIA 20 SLAY-screened peptide P4699 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACTACCGCTCCTTCGGCCTGTAAGCTTAATTATACTTTTTGCCCGACTCTGATCGCGTAA TTTAPSACKLNYTFCPTLIA* -1.223 0.015809 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26350 CANRNMLPCLLDLVLVSANV 20 SLAY-screened peptide P4700 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCTAACCGCAACATGCTCCCGTGCCTTCTGGATCTGGTGCTCGTTTCGGCTAATGTCTAA CANRNMLPCLLDLVLVSANV* -1.223 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26351 TSYILRLFRFLTVTRRYFSN 20 SLAY-screened peptide P4701 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCCTATATTCTTCGCCTGTTTCGTTTCCTCACTGTTACTCGCCGCTATTTCTCGAACTAA TSYILRLFRFLTVTRRYFSN* -1.223 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26352 LPSRCSRVPFSSPDSQSAVS 20 SLAY-screened peptide P4702 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCGTCGAGGTGCAGTCGGGTCCCTTTTAGTTCCCCCGACAGCCAGTCTGCTGTCAGTTAA LPSRCSRVPFSSPDSQSAVS* -1.222 0.019735 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26353 LYIKSTRNSYFLTSRL 16 SLAY-screened peptide P4703 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTACATCAAGTCTACCCGGAATTCGTACTTTCTCACTTCCCGTCTCTAGCTTAGTTATTAA LYIKSTRNSYFLTSRL*LSY* -1.222 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26354 LRYNLPAAPLCSDAYSPWTT 20 SLAY-screened peptide P4704 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGGTATAACCTCCCTGCCGCGCCTTTGTGCAGCGACGCCTACAGCCCGTGGACCACCTAA LRYNLPAAPLCSDAYSPWTT* -1.222 0.000357 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26355 CCPTCDHCVPYYSCRLAHYA 20 SLAY-screened peptide P4705 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTGTCCTACCTGTGACCACTGTGTTCCGTATTACTCGTGTCGGCTTGCGCACTACGCCTAA CCPTCDHCVPYYSCRLAHYA* -1.222 0.024909 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26356 TSIWRFPILLYLKRHFFRFL 20 SLAY-screened peptide P4706 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAGCATTTGGCGTTTCCCCATTCTGCTCTATTTGAAGCGCCATTTTTTTCGCTTTTTGTAA TSIWRFPILLYLKRHFFRFL* -1.222 0.040935 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26357 LPDTSFSTVCHCMD 14 SLAY-screened peptide P4707 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCTGACACGAGTTTTAGTACTGTCTGTCACTGCATGGACTAGGGGGACAAGATGACCTAA LPDTSFSTVCHCMD*GDKMT* -1.222 0.023763 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26358 SGAALFYMPCYAPVSTHMA 19 SLAY-screened peptide P4708 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGGCGCCGCCTTGTTTTACATGCCCTGTTACGCGCCCGTGTCCACTCACATGGCGTAGTAA SGAALFYMPCYAPVSTHMA** -1.222 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26359 VLPPPHQFRRHRRRGLCPCL 20 SLAY-screened peptide P4709 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCTCCCGCCTCCTCACCAGTTTCGTCGGCATCGCCGTCGTGGCCTGTGCCCGTGCCTTTAA VLPPPHQFRRHRRRGLCPCL* -1.222 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26360 HEGISPFQSSHLNDPFTCHT 20 SLAY-screened peptide P4710 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGAGGGGATTTCCCCCTTTCAGAGTAGTCATCTTAATGATCCCTTTACGTGTCATACTTAA HEGISPFQSSHLNDPFTCHT* -1.222 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26361 VTLMLRIVATLVGIRLIRRTN 21 SLAY-screened peptide P4711 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCACACTTATGTTGCGAATAGTCGCTACTTTAGTAGGAATACGACTGATCAGACGTACTAAC VTLMLRIVATLVGIRLIRRTN -1.222 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26362 GAYVHFLFVVRNRPVHHNVG 20 SLAY-screened peptide P4712 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGCCTACGTTCATTTCTTGTTCGTCGTCCGCAACAGGCCTGTCCATCATAACGTGGGTTAA GAYVHFLFVVRNRPVHHNVG* -1.222 0.000842 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26363 LLSPFVGPTISYILYSLIQK 20 SLAY-screened peptide P4713 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTGAGTCCGTTCGTGGGCCCCACGATCTCCTACATCCTTTACTCCCTCATTCAGAAGTAA LLSPFVGPTISYILYSLIQK* -1.221 0.009695 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26364 PTNASPISGTSLSSTDSSHT 20 SLAY-screened peptide P4714 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACCAACGCGAGCCCTATTTCCGGCACCTCCCTCTCTTCCACTGATAGCTCGCACACCTAA PTNASPISGTSLSSTDSSHT* -1.221 0.004022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26365 AAGTRTNPVMDKTTRDAAHQ 20 SLAY-screened peptide P4715 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGCGGGTACGAGGACTAACCCTGTTATGGACAAGACCACCCGCGATGCCGCTCATCAGTAA AAGTRTNPVMDKTTRDAAHQ* -1.22 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26366 RALIVLPTYNRSSHQSFNPA 20 SLAY-screened peptide P4716 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGCGCTGATCGTGCTTCCCACGTACAACCGCTCGAGTCACCAGAGCTTTAACCCCGCGTAA RALIVLPTYNRSSHQSFNPA* -1.22 0.000025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26367 RIPYIWLLHEYSPYNYDNIS 20 SLAY-screened peptide P4717 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATTCCCTATATCTGGCTCCTCCACGAGTATAGCCCGTATAATTACGACAATATCAGCTAA RIPYIWLLHEYSPYNYDNIS* -1.22 0.002479 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26368 GPHYDRSHNYPYILTLYDCT 20 SLAY-screened peptide P4718 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCCGCATTATGATAGGAGCCACAATTACCCCTATATCCTTACTCTGTACGACTGTACGTAA GPHYDRSHNYPYILTLYDCT* -1.22 0.021208 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26369 APVRANSFYLTWPPSDHPSC 20 SLAY-screened peptide P4719 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCTGTTCGGGCTAATTCTTTCTATTTGACGTGGCCCCCCTCCGACCACCCCAGTTGCTAA APVRANSFYLTWPPSDHPSC* -1.22 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26370 TPKRKYCKSSLFKLFNLFFR 20 SLAY-screened peptide P4720 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCTAAGCGTAAGTACTGCAAGTCGTCGCTCTTCAAGTTGTTTAATTTGTTTTTCAGGTAA TPKRKYCKSSLFKLFNLFFR* -1.22 0.017482 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26371 PTDFLFDSPRNIYRHYVS 18 SLAY-screened peptide P4721 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACTGACTTTCTGTTTGATTCTCCGCGGAATATCTACCGCCATTACGTTTCCTAGTCCTAA PTDFLFDSPRNIYRHYVS*S* -1.219 0.033381 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26372 GLTRFHGCVYILFIISVRIR 20 SLAY-screened peptide P4722 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCTCACCAGGTTCCACGGCTGCGTCTATATTCTCTTTATTATTTCGGTTCGCATCAGGTAA GLTRFHGCVYILFIISVRIR* -1.219 0.000221 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26373 YTSVPRSTHTPCAFALFDGL 20 SLAY-screened peptide P4723 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACTTCGGTGCCTCGTTCTACGCACACGCCGTGCGCCTTTGCGCTTTTCGATGGTCTGTAA YTSVPRSTHTPCAFALFDGL* -1.219 0.001219 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26374 AGFRYFPSPAPTWIYRKQQS 20 SLAY-screened peptide P4724 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGGCTTCAGGTATTTCCCCAGCCCCGCGCCGACGTGGATCTATCGTAAGCAGCAGTCCTAA AGFRYFPSPAPTWIYRKQQS* -1.218 0.018978 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26375 PRLPCGSDQSRVPPITNSRR 20 SLAY-screened peptide P4725 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGGCTCCCTTGTGGTTCCGACCAGAGCCGCGTCCCCCCCATTACGAACTCTCGTCGTTAA PRLPCGSDQSRVPPITNSRR* -1.218 0.024526 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26376 VSRCPERLHDQSHYSGNRGT 20 SLAY-screened peptide P4726 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCAGCCGTTGCCCGGAGCGGCTCCATGACCAGAGTCATTACTCTGGGAACCGTGGTACGTAA VSRCPERLHDQSHYSGNRGT* -1.218 0.000108 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26377 GHCRAMRLTLAISFGGVPRGN 21 SLAY-screened peptide P4727 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCATTGCCGGGCTATGAGATTGACACTAGCAATTAGCTTCGGGGGAGTGCCAAGGGGTAAC GHCRAMRLTLAISFGGVPRGN -1.218 0.000473 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26378 SPCYDWTLSSIIYHTVTNYS 20 SLAY-screened peptide P4728 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCCGTGCTATGACTGGACCCTTAGCTCTATTATTTACCATACGGTTACGAACTATAGTTAA SPCYDWTLSSIIYHTVTNYS* -1.218 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26379 LSSHLH 6 SLAY-screened peptide P4729 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCTTCTCACCTGCACTAGAAGTGTATGATCGAGTCTAGTGCCTCGACCACCGCTCCTTAA LSSHLH*KCMIESSASTTAP* -1.217 0.010344 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26380 ALQCFKSLVSHIVHSDHQQN 20 SLAY-screened peptide P4730 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCTGCAGTGCTTTAAGAGTTTGGTGTCCCATATTGTTCACAGCGATCACCAGCAGAACTAA ALQCFKSLVSHIVHSDHQQN* -1.217 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26381 LYNQISPTVLILPCTFLPDL 20 SLAY-screened peptide P4731 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTATAACCAGATTAGCCCTACTGTTCTTATTCTGCCGTGTACGTTCTTGCCTGATCTTTAA LYNQISPTVLILPCTFLPDL* -1.217 0.001025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26382 CSAPSGARMPAIILASLRFTN 21 SLAY-screened peptide P4732 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTCGGCGCCGAGCGGTGCTCGAATGCCCGCGATTATTCTCGCCTCGCTGCGGTTTACTAAC CSAPSGARMPAIILASLRFTN -1.217 0.00137 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26383 NTVCIPYDNFVFSGHLRFAS 20 SLAY-screened peptide P4733 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACCGTTTGCATTCCCTACGACAACTTTGTTTTCAGTGGGCACTTGAGGTTTGCTTCCTAA NTVCIPYDNFVFSGHLRFAS* -1.217 0.000075 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26384 CGKSDFTNESRVHF 14 SLAY-screened peptide P4734 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGGCAAGTCGGATTTCACCAACGAGTCGCGCGTTCATTTCTAGCCCTACTGTTCCCAGTAA CGKSDFTNESRVHF*PYCSQ* -1.217 0.025664 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26385 TPVLALCYLCGAHTVDLICV 20 SLAY-screened peptide P4735 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCCGGTTCTTGCCCTCTGTTACTTGTGCGGTGCTCACACGGTCGATCTTATCTGCGTTTAA TPVLALCYLCGAHTVDLICV* -1.217 0.000026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26386 LLNVGRHQGNVVIHLSNFSL 20 SLAY-screened peptide P4736 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCTCAATGTTGGCCGGCACCAGGGCAACGTCGTCATCCACCTTTCTAACTTCAGCCTCTAA LLNVGRHQGNVVIHLSNFSL* -1.217 0.020944 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26387 ASVRPFTCYDPAPLPTLLVRN 21 SLAY-screened peptide P4737 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTCCGTTCGTCCTTTTACCTGCTATGATCCGGCGCCACTTCCTACTTTGCTCGTCCGTAAC ASVRPFTCYDPAPLPTLLVRN -1.216 0.009957 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26388 LHTFALIRNTTRVYP 15 SLAY-screened peptide P4738 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCATACCTTTGCCTTGATCCGTAATACTACCAGGGTGTACCCGTAGTGTAAGCTCAGCTAA LHTFALIRNTTRVYP*CKLS* -1.216 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26389 TLPSNPHCNSLATYLFYLSY 20 SLAY-screened peptide P4739 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTCCCCAGTAATCCTCACTGTAACAGCCTGGCTACTTACCTTTTCTACCTGTCCTATTAA TLPSNPHCNSLATYLFYLSY* -1.216 0.034873 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26390 ESLRRISACTAIPHHSLFKS 20 SLAY-screened peptide P4740 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGGGGAGAGAGTCTGCGTCGCATTAGTGCGTGCACCGCCATTCCCCACCATAGCCTCTTTAAGTCTTAA ESLRRISACTAIPHHSLFKS* -1.216 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26391 TQYSLSSCKINGYNPWTTAPN 21 SLAY-screened peptide P4741 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCAGTACAGCCTGTCCTCTTGTAAGATTAATGGTTACAACCCGTGGACGACCGCCCCTAAC TQYSLSSCKINGYNPWTTAPN -1.216 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26392 DPGVRINPNVRPFIRNTYIW 20 SLAY-screened peptide P4742 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCCGGTGTTAGGATCAACCCTAATGTGAGGCCCTTCATTCGTAACACGTATATCTGGTAA DPGVRINPNVRPFIRNTYIW* -1.216 0.005607 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26393 PNVTFVIVTGYSLHTTWWLP 20 SLAY-screened peptide P4743 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATGTCACTTTCGTTATTGTGACGGGCTACAGCCTTCATACGACGTGGTGGCTGCCTTAA PNVTFVIVTGYSLHTTWWLP* -1.216 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26394 SCSPHCLVYPVFPDTFHRCR 20 SLAY-screened peptide P4744 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTGCTCGCCGCACTGTCTCGTCTACCCTGTCTTCCCTGATACGTTTCACCGTTGTCGTTAA SCSPHCLVYPVFPDTFHRCR* -1.216 0.018472 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26395 RIMVPYFHFI 10 SLAY-screened peptide P4745 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTATTATGGTTCCTTATTTTCACTTCATTTAGCATTGCCCTATTACGATTCATCGTAACTAA RIMVPYFHFI*HCPITIHRN* -1.215 0.005437 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26396 VLILLDHQNWSSCPSLSFIR 20 SLAY-screened peptide P4746 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCTTATTCTTCTGGACCACCAGAACTGGTCGAGCTGCCCTAGCCTCTCCTTCATCCGTTAA VLILLDHQNWSSCPSLSFIR* -1.215 0.035413 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26397 TRTYKRLWSLIMTMVTRHCT 20 SLAY-screened peptide P4747 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCGCACGTATAAGCGGCTTTGGTCTCTCATCATGACCATGGTCACGCGTCATTGCACGTAA TRTYKRLWSLIMTMVTRHCT* -1.215 0.033917 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26398 LQVRCRIVVVNLTFSWYLWV 20 SLAY-screened peptide P4748 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCAGGTGAGGTGCCGGATTGTTGTCGTTAATTTGACTTTTTCCTGGTACTTGTGGGTTTAA LQVRCRIVVVNLTFSWYLWV* -1.214 0.000361 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26399 LHCSLAIPSLRPASHETLDS 20 SLAY-screened peptide P4749 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCACTGTAGCCTGGCGATCCCGTCCCTTCGCCCCGCTTCGCACGAGACTCTTGACAGCTAA LHCSLAIPSLRPASHETLDS* -1.214 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26400 RHQPYCATPSFLLLACYKDT 20 SLAY-screened peptide P4750 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCACCAGCCCTACTGTGCCACGCCCTCTTTCCTTCTTCTCGCTTGTTATAAGGACACTTAA RHQPYCATPSFLLLACYKDT* -1.213 0.03173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26401 PPCVWRPTWAMRPSYISSYP 20 SLAY-screened peptide P4751 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCTGTGTTTGGCGCCCTACGTGGGCCATGCGTCCTTCGTACATCAGCTCTTATCCTTAA PPCVWRPTWAMRPSYISSYP* -1.213 0.026568 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26402 ARDPYLNRCHCYSLNSYFLL 20 SLAY-screened peptide P4752 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAGGGATCCCTATCTTAACCGCTGTCACTGTTACTCTCTGAACTCCTACTTTTTGCTTTAA ARDPYLNRCHCYSLNSYFLL* -1.213 0.048564 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26403 QHPECIDLNFGGLDR 15 SLAY-screened peptide P4753 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCACCCTGAGTGCATCGATCTTAATTTTGGTGGCCTGGACAGGTAGATGAGCTTCCAGTAA QHPECIDLNFGGLDR*MSFQ* -1.213 0.021488 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26404 SYSGSWNLAPCIVRRPLWIY 20 SLAY-screened peptide P4754 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTATTCTGGCTCCTGGAATCTTGCCCCTTGCATTGTTCGCCGCCCGCTCTGGATTTACTAA SYSGSWNLAPCIVRRPLWIY* -1.213 0.03036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26405 PCHGSELN 8 SLAY-screened peptide P4755 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGTCACGGTTCCGAGCTTAATTAGCATATCTATTATGCCTATTATCTGCCTTTCTCCTAA PCHGSELN*HIYYAYYLPFS* -1.213 0.002872 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26406 LWHILALLMSRISFPPIPTR 20 SLAY-screened peptide P4756 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTGGCACATTCTTGCCCTTCTGATGTCGCGCATCTCGTTCCCCCCGATCCCTACTCGGTAA LWHILALLMSRISFPPIPTR* -1.212 0.000251 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26407 LPHWNHTR 8 SLAY-screened peptide P4757 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCCTCACTGGAACCACACCCGGTAGGCCAGCCTCAAGTATCCCACCTGTGCGGATTTGTAA LPHWNHTR*ASLKYPTCADL* -1.212 0.017062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26408 YCNPFWIYPSYSRNIIV 17 SLAY-screened peptide P4758 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTGTAATCCGTTCTGGATTTACCCCTCGTACAGCAGGAATATCATTGTCTAGCTTGCCTAA YCNPFWIYPSYSRNIIV*LA* -1.212 0.000093 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26409 ITRNGRILSLSHPSRRYTIS 20 SLAY-screened peptide P4759 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCACTCGGAACGGTCGTATTCTGTCTCTTTCCCACCCTTCTCGCCGTTATACCATTAGTTAA ITRNGRILSLSHPSRRYTIS* -1.212 0.001218 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26410 RNIPYNAECSSLPSRRTNSD 20 SLAY-screened peptide P4760 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAACATCCCGTACAATGCGGAGTGTAGCAGTTTGCCTAGCCGCCGGACGAATTCTGACTAA RNIPYNAECSSLPSRRTNSD* -1.212 0.019009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26411 LRSRPPRKIPRTFATTQRLF 20 SLAY-screened peptide P4761 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGGTCTCGCCCGCCTCGGAAGATCCCCAGGACTTTCGCCACTACCCAGCGCCTCTTTTAA LRSRPPRKIPRTFATTQRLF* -1.212 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26412 RVFCD 5 SLAY-screened peptide P4762 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGTTTTTTGTGATTAGAATTCCACTTATGTCCTTACCCACTTTATTAACCCCTCGGTTTAA RVFCD*NSTYVLTHFINPSV* -1.211 0.00028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26413 ASHYSFRTAPISIFAYGFYS 20 SLAY-screened peptide P4763 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTCGCATTACAGTTTCCGCACCGCTCCGATTTCTATCTTCGCTTACGGCTTCTATTCTTAA ASHYSFRTAPISIFAYGFYS* -1.211 0.000705 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26414 HLPGLNFDWHNLFLPYNTPC 20 SLAY-screened peptide P4764 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTTGCCGGGGCTTAACTTCGACTGGCATAATCTTTTCCTTCCTTATAACACTCCTTGCTAA HLPGLNFDWHNLFLPYNTPC* -1.211 0.008433 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26415 SERISPINNYHAGSSNRQLG 20 SLAY-screened peptide P4765 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGAGCGCATTAGTCCGATCAATAATTACCATGCTGGTTCCAGTAATAGGCAGCTTGGCTAA SERISPINNYHAGSSNRQLG* -1.211 0.009057 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26416 NHHHGCTLTTYI 12 SLAY-screened peptide P4766 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCATCATCACGGTTGTACCCTTACCACGTATATTTAGCCCCACATTAGGACTTCGCAGTAA NHHHGCTLTTYI*PHIRTSQ* -1.21 0.000082 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26417 PGPLRIVNPCHITCCLNKNH 20 SLAY-screened peptide P4767 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGGGCCCCTCAGGATCGTCAACCCTTGTCATATCACTTGCTGTCTGAACAAGAATCATTAA PGPLRIVNPCHITCCLNKNH* -1.21 0.000106 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26418 NGTARNLLIRIHSTNFLGF 19 SLAY-screened peptide P4768 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGGCACCGCCCGCAATCTTCTTATTAGGATCCATTCCACGAACTTTCTTGGTTTTTAGTAA NGTARNLLIRIHSTNFLGF** -1.21 0.000501 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26419 TPSD 4 SLAY-screened peptide P4769 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCCAGTGACTAGTATGACAGGGACCCTTGCTTCCTGTAGCCCAACTAGTGTGGCATTTAC TPSD*YDRDPCFL*PN*CGIY -1.21 0.043255 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26420 TLCPFYQFYSLYGKGSSGSL 20 SLAY-screened peptide P4770 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTGTGTCCGTTTTATCAGTTTTACTCGCTTTACGGCAAGGGCTCTTCTGGCTCCTTGTAA TLCPFYQFYSLYGKGSSGSL* -1.209 0.004689 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26421 TPVYGDDAYSNIPGHPAPNT 20 SLAY-screened peptide P4771 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCCGTGTACGGTGACGACGCCTACTCTAATATTCCCGGGCACCCCGCGCCTAACACTTAA TPVYGDDAYSNIPGHPAPNT* -1.209 0.000442 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26422 FSP 3 SLAY-screened peptide P4772 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTCCCCTTAGACTACCCATCCTTTTAAGGCTTTGCCTAACCATTGGAATGTTCTCAACTAA FSP*TTHPFKALPNHWNVLN* -1.209 0.031545 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26423 GYSNTVRFLIPDWTRPNWGN 20 SLAY-screened peptide P4773 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTACTCTAATACGGTCCGTTTCCTTATTCCCGATTGGACTCGCCCGAATTGGGGGAATTAA GYSNTVRFLIPDWTRPNWGN* -1.209 0.000831 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26424 HPQTCFRTPSAKPIRG 16 SLAY-screened peptide P4774 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTCAGACTTGCTTCCGGACGCCCAGTGCTAAGCCCATCCGCGGTTAGACCCGCGAGTAA HPQTCFRTPSAKPIRG*TRE* -1.209 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26425 RSLLRFTPGCEAFYLIPFRP 20 SLAY-screened peptide P4775 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAGCCTCCTTCGGTTCACGCCCGGGTGTGAGGCGTTTTATCTGATTCCTTTCCGTCCGTAA RSLLRFTPGCEAFYLIPFRP* -1.209 0.035389 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26426 CYPWVPTVMLVASTPDNHIN 20 SLAY-screened peptide P4776 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTACCCCTGGGTCCCCACGGTGATGCTGGTTGCTTCCACCCCCGACAATCATATCAACTAA CYPWVPTVMLVASTPDNHIN* -1.209 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26427 LLNQLSMYRHYLARKLGASL 20 SLAY-screened peptide P4777 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCTCAATCAGCTGAGCATGTATCGCCACTACCTCGCTCGGAAGCTTGGTGCGTCTCTTTAA LLNQLSMYRHYLARKLGASL* -1.209 0.029887 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26428 LHFSQLPLHVI 11 SLAY-screened peptide P4778 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCATTTCTCGCAGCTGCCTCTGCACGTCATATGATTGCCATGTATGATCACAATATGTAAC LHFSQLPLHVI*LPCMITICN -1.209 0.001233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26429 HIGLCDTHSLPYETSRHLSS 20 SLAY-screened peptide P4779 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATCGGCCTGTGTGACACCCATAGTCTCCCTTATGAGACTTCCCGTCACCTGTCGAGCTAA HIGLCDTHSLPYETSRHLSS* -1.209 0.031503 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26430 CHCPLQTNNAHLTFTTRCSSN 21 SLAY-screened peptide P4780 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCATTGCCCTCTGCAGACCAATAACGCTCATTTGACGTTTACTACCAGGTGTAGTAGTAAC CHCPLQTNNAHLTFTTRCSSN -1.208 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26431 TNRCLRSFFLCLN 13 SLAY-screened peptide P4781 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAACCGTTGCCTTAGGTCCTTTTTTTTGTGCCTGAATTAGCCTTTCGTTAGGTTCCACTAA TNRCLRSFFLCLN*PFVRFH* -1.208 0.000545 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26432 TPFPYYILPYCTGWTPLVTE 20 SLAY-screened peptide P4782 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCGTTCCCCTATTATATCCTCCCCTATTGTACGGGGTGGACTCCCCTGGTAACTGAGTAA TPFPYYILPYCTGWTPLVTE* -1.208 0.029131 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26433 LIPWIDYHPCHYQCSTLHWR 20 SLAY-screened peptide P4783 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATCCCTTGGATCGATTATCATCCTTGTCACTACCAGTGTTCCACTCTTCATTGGCGCTAA LIPWIDYHPCHYQCSTLHWR* -1.208 0.004962 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26434 RFVCQANVREIITFILNSCY 20 SLAY-screened peptide P4784 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTCGTGTGCCAGGCCAATGTTCGCGAGATTATTACTTTTATTCTTAATAGCTGCTATTAA RFVCQANVREIITFILNSCY* -1.208 0.045201 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26435 IPHIFKWTRTLHSAGSRIMLY 21 SLAY-screened peptide P4785 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCCCATATCTTTAAGTGGACCCGTACCCTTCACTCTGCCGGCTCTCGCATCATGCTTTAC IPHIFKWTRTLHSAGSRIMLY -1.207 0.040611 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26436 PAPPPFSRSSISPQHSLVSG 20 SLAY-screened peptide P4786 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTCCGCCCCCCTTTAGCCGTAGCTCTATTAGCCCCCAGCACTCCTTGGTGTCGGGCTAA PAPPPFSRSSISPQHSLVSG* -1.207 0.002253 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26437 FRGS 4 SLAY-screened peptide P4787 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCGCGGGTCGTAGTGCGATAATCCTCGTGGCAGGTGGAACCCGAATTAGCCTTACTCTTAC FRGS*CDNPRGRWNPN*PYSY -1.207 0.021189 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26438 SPSSLAPWSCPDHFYLALMS 20 SLAY-screened peptide P4788 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCCGTCGTCTCTCGCGCCCTGGTCTTGCCCCGACCATTTTTACCTCGCTCTTATGAGTTAA SPSSLAPWSCPDHFYLALMS* -1.207 0.007592 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26439 QADDPAPGAYTSCVSYDAPS 20 SLAY-screened peptide P4789 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGCTGATGATCCCGCTCCCGGGGCTTACACCTCTTGCGTTTCTTATGACGCTCCTAGCTAA QADDPAPGAYTSCVSYDAPS* -1.207 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26440 HNGQRKSCSYLCDRLVPKIH 20 SLAY-screened peptide P4790 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAACGGCCAGCGTAAGTCGTGTAGTTATTTGTGTGACCGGCTCGTTCCGAAGATTCATTAA HNGQRKSCSYLCDRLVPKIH* -1.206 0.026248 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26441 PTPPTISGETASVVPSSSTP 20 SLAY-screened peptide P4791 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACTCCTCCTACCATTTCTGGCGAGACTGCCTCTGTTGTCCCTAGTAGTAGTACGCCGTAA PTPPTISGETASVVPSSSTP* -1.206 0.000089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26442 RNSETAFGD 9 SLAY-screened peptide P4792 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAATTCCGAGACGGCGTTTGGCGACTAGTAGAGTCTGCTCAGCTCCGCCCGTACCTTCTAA RNSETAFGD**SLLSSARTF* -1.206 0.016225 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26443 APSPAYCHNIRTEFSRHWTL 20 SLAY-screened peptide P4793 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCGAGCCCGGCCTACTGTCATAACATCCGTACTGAGTTTAGCAGGCACTGGACTTTGTAA APSPAYCHNIRTEFSRHWTL* -1.205 0.000153 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26444 SGAAHSNRLYTPTHLRMTST 20 SLAY-screened peptide P4794 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGGTGCCGCCCACAGCAATCGTCTTTATACCCCTACCCATCTGCGGATGACGTCGACTTAA SGAAHSNRLYTPTHLRMTST* -1.205 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26445 TMAPHMFHR 9 SLAY-screened peptide P4795 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTATGGCGCCGCATATGTTTCATAGGTAGAACAGTGCTTGTGTTTTTTTTTTGAATCATAAC TMAPHMFHR*NSACVFFLNHN -1.205 0.000139 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26446 NAART 5 SLAY-screened peptide P4796 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGCGGCGAGGACGTAGAGCCTGAGTTCTCTTGTTTGTAATAACCTTTCTTTCGTCTTGTAA NAART*SLSSLVCNNLSFVL* -1.205 0.014001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26447 FYYRLSAHIHPTSILK 16 SLAY-screened peptide P4797 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTATTACCGGTTGTCTGCGCACATTCACCCTACCTCCATTCTTAAGTAGACGGATTACTAA FYYRLSAHIHPTSILK*TDY* -1.205 0.000112 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26448 PSNPPTRCLSAVNCTPHCGY 20 SLAY-screened peptide P4798 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGTAACCCCCCTACGCGTTGCCTGTCGGCCGTTAACTGCACTCCTCACTGCGGCTACTAA PSNPPTRCLSAVNCTPHCGY* -1.204 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26449 NPVYFPLCGVWNCCPYAPPR 20 SLAY-screened peptide P4799 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCCCGTCTACTTCCCCCTTTGTGGTGTTTGGAATTGCTGTCCGTATGCCCCCCCTCGCTAA NPVYFPLCGVWNCCPYAPPR* -1.204 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26450 TVWPPWPRIYCLHIWLSSTN 20 SLAY-screened peptide P4800 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGTCTGGCCTCCCTGGCCTAGGATTTATTGTCTTCACATTTGGCTCAGCAGTACTAACTAA TVWPPWPRIYCLHIWLSSTN* -1.204 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26451 KPALPSSLYPFHVCPGF 17 SLAY-screened peptide P4801 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCCTGCGCTGCCCTCTTCTCTTTATCCCTTCCACGTCTGCCCTGGGTTTTAGTAGAGTTAA KPALPSSLYPFHVCPGF**S* -1.204 0.000321 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26452 RNAPIDRMFLKLTPNRDTMS 20 SLAY-screened peptide P4802 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGAACGCTCCTATCGACCGTATGTTTCTTAAGCTGACTCCCAACAGGGACACTATGTCGTAA RNAPIDRMFLKLTPNRDTMS* -1.204 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26453 ISLNL 5 SLAY-screened peptide P4803 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAGCCTTAACCTCTAGTTCTTGGACGCCGGCTTTTCTAGCAAGCTTCCTTTTGGTGAGTAA ISLNL*FLDAGFSSKLPFGE* -1.204 0.001245 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26454 SSNNLNNCYCFI 12 SLAY-screened peptide P4804 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTCCAACAATCTCAATAATTGCTACTGTTTCATTTAGTACCGTGTTCACACCAGGTTTTAA SSNNLNNCYCFI*YRVHTRF* -1.204 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26455 CLYDWRYYYTVRNL 14 SLAY-screened peptide P4805 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCTATGACTGGAGGTATTACTACACCGTCCGTAATCTCTAGTTTTTGTTCTGTACCTAA CLYDWRYYYTVRNL*FLFCT* -1.203 0.027292 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26456 HTSEFMNYLRPSRNNPFICR 20 SLAY-screened peptide P4806 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACGTCTGAGTTCATGAATTATCTTCGCCCTAGTAGGAACAATCCCTTCATTTGCCGGTAA HTSEFMNYLRPSRNNPFICR* -1.203 0.00093 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26457 LSTCSYAETTPLHREVHMHV 20 SLAY-screened peptide P4807 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCCACCTGTTCCTACGCTGAGACTACTCCCCTCCATCGTGAGGTGCACATGCACGTCTAA LSTCSYAETTPLHREVHMHV* -1.203 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26458 ALARVNNLNLPLLCSDLHNY 20 SLAY-screened peptide P4808 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCTTGCGCGCGTCAATAACCTGAATTTGCCGCTCTTGTGTTCTGATTTGCATAACTACTAA ALARVNNLNLPLLCSDLHNY* -1.203 0.015317 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26459 IWTRARSLLIRKRPWPLRGT 20 SLAY-screened peptide P4809 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTGGACGCGGGCCCGCTCCCTCCTTATCCGTAAGAGGCCGTGGCCTCTCCGTGGCACCTAA IWTRARSLLIRKRPWPLRGT* -1.203 0.041331 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26460 DHHLTFGHVHDLWNYTLNNA 20 SLAY-screened peptide P4810 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCATCACCTCACGTTTGGCCACGTTCACGACCTCTGGAACTATACCCTGAATAACGCCTAA DHHLTFGHVHDLWNYTLNNA* -1.203 0.035248 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26461 CASQIPNATHLIRPIPYGSI 20 SLAY-screened peptide P4811 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGCGTCCCAGATCCCGAACGCTACGCACTTGATTCGCCCCATCCCTTATGGCTCGATCTAA CASQIPNATHLIRPIPYGSI* -1.202 0.013939 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26462 PRRLDYPVHY 10 SLAY-screened peptide P4812 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGCAGGCTTGACTACCCCGTCCACTACTAGCCTAAGACGAATTTTTCGGCTAGCTTCTAA PRRLDYPVHY*PKTNFSASF* -1.202 0.034808 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26463 SGVPVFSPFGVYHLIVQYAC 20 SLAY-screened peptide P4813 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGGTGTCCCGGTCTTTTCTCCGTTTGGCGTCTACCACCTCATTGTTCAGTATGCCTGTTAA SGVPVFSPFGVYHLIVQYAC* -1.201 0.001797 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26464 PNCPALWPTCYISSS 15 SLAY-screened peptide P4814 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAATTGCCCCGCCTTGTGGCCCACTTGTTACATTTCGAGCTCTTAGAATTCCTCTAGGTAA PNCPALWPTCYISSS*NSSR* -1.201 0.035525 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26465 VLMSTLSSYLHHLKANRNRT 20 SLAY-screened peptide P4815 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCTTATGTCCACGTTGAGCTCCTATCTTCACCATTTGAAGGCGAATAGGAACCGCACCTAA VLMSTLSSYLHHLKANRNRT* -1.201 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26466 WYGYLPTWPYGYPQVAIYSH 20 SLAY-screened peptide P4816 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTATGGCTATCTCCCTACCTGGCCGTATGGGTATCCGCAGGTCGCTATTTATTCCCATTAA WYGYLPTWPYGYPQVAIYSH* -1.201 0.001797 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26467 WRCASNVYLHQNTNSNNYPI 20 SLAY-screened peptide P4817 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCGCTGCGCGAGCAACGTCTACCTTCACCAGAACACTAATTCCAATAATTACCCCATTTAA WRCASNVYLHQNTNSNNYPI* -1.201 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26468 DGPSSCTYFL 10 SLAY-screened peptide P4818 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGGTCCTTCTAGCTGCACTTATTTCTTGTAGTCTGTGAACGCGGGTGTGTGGTCTAGGTAA DGPSSCTYFL*SVNAGVWSR* -1.201 0.008829 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26469 CVCPPCYSFINLTPVKDPGL 20 SLAY-screened peptide P4819 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGTCTGCCCGCCTTGCTATTCTTTCATTAACCTTACGCCGGTCAAGGACCCGGGTCTCTAA CVCPPCYSFINLTPVKDPGL* -1.201 0.000808 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26470 EDTCASLSGTLITHMCGCLI 20 SLAY-screened peptide P4820 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGATACTTGCGCCAGCCTCTCCGGCACGCTCATCACGCACATGTGCGGTTGCCTGATCTAA EDTCASLSGTLITHMCGCLI* -1.2 0.000179 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26471 YQMSTSSPALSA 12 SLAY-screened peptide P4821 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCAGATGTCTACAAGCTCTCCAGCGCTAAGCGCCTGACTCATGTGATTTCGTCGCATTAAC YQMSTSSPALSA*LM*FRRIN -1.2 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26472 IYRGGCDIHSIHCSPQMRVQ 20 SLAY-screened peptide P4822 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTATAGGGGCGGTTGTGATATCCACAGTATCCACTGTTCGCCCCAGATGCGTGTTCAGTAA IYRGGCDIHSIHCSPQMRVQ* -1.2 0.00083 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26473 AFHSSCPPRYELALNGASGH 20 SLAY-screened peptide P4823 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTTTCACTCCAGCTGCCCCCCTCGTTATGAGCTTGCGTTGAATGGCGCGTCCGGCCATTAA AFHSSCPPRYELALNGASGH* -1.199 0.029845 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26474 FPDLCGHNKLYYET 14 SLAY-screened peptide P4824 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCCTGACCTGTGCGGCCATAATAAGCTGTACTATGAGACCTAGATTATTGCTACTCACTAA FPDLCGHNKLYYET*IIATH* -1.199 0.02146 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26475 PTTCFYTRFGRLDRGIKYTP 20 SLAY-screened peptide P4825 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCACTTGTTTTTACACTCGCTTTGGTCGCTTGGATCGGGGCATCAAGTACACTCCCTAA PTTCFYTRFGRLDRGIKYTP* -1.199 0.00433 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26476 HTSKNQSWRAYLFWDPQIDF 20 SLAY-screened peptide P4826 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACTAGCAAGAATCAGTCTTGGCGTGCGTACCTTTTTTGGGACCCTCAGATCGACTTTTAA HTSKNQSWRAYLFWDPQIDF* -1.198 0.000285 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26477 PIIFMRVSSM 10 SLAY-screened peptide P4827 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATTATCTTCATGAGGGTCAGTTCCATGTAGCCGCTTGCTCTCCCCCACTGTGCTGCGTAA PIIFMRVSSM*PLALPHCAA* -1.198 0.000026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26478 FPYSAWPDCYVLNY 14 SLAY-screened peptide P4828 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCCTATAGCGCTTGGCCCGACTGTTATGTGCTCAATTACTAGATTATGACCTCCCGCTAA FPYSAWPDCYVLNY*IMTSR* -1.197 0.02154 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26479 QRCTCDLPSTCRSLFLYTAT 20 SLAY-screened peptide P4829 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCGCTGCACGTGTGACCTGCCCTCCACCTGTAGGTCTCTCTTTCTGTATACGGCCACTTAA QRCTCDLPSTCRSLFLYTAT* -1.197 0.01791 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26480 IVDTDPDSGVDYNCVPTMIA 20 SLAY-screened peptide P4830 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGTGGACACTGACCCCGACAGCGGCGTTGACTACAACTGTGTCCCTACGATGATTGCTTAA IVDTDPDSGVDYNCVPTMIA* -1.197 0.006305 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26481 RDIFLVVLDHDDNHSTYDIL 20 SLAY-screened peptide P4831 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGACATTTTCCTTGTCGTGCTTGACCACGATGACAATCATAGTACTTACGACATCTTGTAA RDIFLVVLDHDDNHSTYDIL* -1.197 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26482 VAPGPLLILSLILRPLRIRPP 21 SLAY-screened peptide P4832 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGGCCCCGGGACCGCTACTTATACTCTCTTTAATACTCCGCCCATTAAGGATCAGGCCACCT VAPGPLLILSLILRPLRIRPP -1.196 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26483 CGFGQSINNLFRIFKSSSGV 20 SLAY-screened peptide P4833 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGGCTTCGGGCAGAGCATCAATAACCTTTTTCGCATTTTCAAGAGTTCTTCTGGCGTGTAA CGFGQSINNLFRIFKSSSGV* -1.196 0.000833 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26484 HSTISNPRRCSHATNKSILQ 20 SLAY-screened peptide P4834 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAGCACGATCTCCAATCCGCGGCGCTGCTCTCATGCGACTAACAAGTCTATCCTCCAGTAA HSTISNPRRCSHATNKSILQ* -1.196 0.000192 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26485 TPVRTDLIK 9 SLAY-screened peptide P4835 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCGGTGCGCACCGACCTGATCAAATGATCAGTATACGGCGACCTTTACTACTTCCTAACT TPVRTDLIK*SVYGDLYYFLT -1.196 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26486 PVCIRTINLGASILNYANYV 20 SLAY-screened peptide P4836 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTGTGTATTCGTACTATCAACCTCGGGGCCTCTATCCTTAACTACGCGAATTACGTTTAA PVCIRTINLGASILNYANYV* -1.196 0.003701 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26487 CAVWCIGTAHYAALMSPGIL 20 SLAY-screened peptide P4837 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCTGTCTGGTGTATCGGCACGGCCCACTACGCCGCCCTGATGTCGCCTGGTATCCTTTAA CAVWCIGTAHYAALMSPGIL* -1.195 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26488 FHSLLSWPLMHNRGPKSAVTN 21 SLAY-screened peptide P4838 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCACTCCCTTTTGTCTTGGCCCTTGATGCACAACCGGGGCCCCAAATCAGCAGTAACTAAC FHSLLSWPLMHNRGPKSAVTN -1.195 0.000034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26489 TSSYHINIPYVNSTSVTATR 20 SLAY-screened peptide P4839 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCTAGTTACCATATTAACATTCCCTATGTTAACTCCACCAGTGTTACTGCGACGCGCTAA TSSYHINIPYVNSTSVTATR* -1.195 0.011351 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26490 RGLLRQRDRN 10 SLAY-screened peptide P4840 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGGCCTGCTTCGTCAGCGGGACCGGAATTAGATCTACGTTAATTAGAAGCAGCATCCTTAA RGLLRQRDRN*IYVN*KQHP* -1.195 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26491 YICLPSTPGRWGRINYKDSYY 21 SLAY-screened peptide P4841 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACATTTGTTTGCCTTCCACTCCCGGTAGGTGGGGTCGCATTAATTACAAGGATAGCTACTAC YICLPSTPGRWGRINYKDSYY -1.195 0.000452 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26492 TFRNNLVVCTYARGPPTVDP 20 SLAY-screened peptide P4842 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTTCCGTAACAACCTTGTCGTCTGCACTTATGCCCGTGGCCCGCCGACTGTCGATCCCTAA TFRNNLVVCTYARGPPTVDP* -1.194 0.000143 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26493 RRSPHIERNTLYPLNCLNVV 20 SLAY-screened peptide P4843 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCGCTCGCCGCACATTGAGCGTAACACCCTGTACCCTCTTAATTGCCTCAATGTTGTTTAA RRSPHIERNTLYPLNCLNVV* -1.194 0.003589 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26494 LICTSYACLFPHPCFTTFQG 20 SLAY-screened peptide P4844 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATCTGCACCAGCTACGCGTGCCTTTTCCCTCACCCTTGTTTCACGACTTTCCAGGGGTAA LICTSYACLFPHPCFTTFQG* -1.194 0.013804 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26495 NHPVLRATAPSLTLMDSYLI 20 SLAY-screened peptide P4845 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCATCCTGTTCTGCGGGCCACTGCCCCCAGTCTCACTCTTATGGATTCCTATCTCATTTAA NHPVLRATAPSLTLMDSYLI* -1.194 0.003587 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26496 LPSSFVGAMKV 11 SLAY-screened peptide P4846 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCTTCTAGCTTTGTGGGGGCTATGAAGGTCTAGGCCAATGCCCTCAGCTGTGATTTGTAA LPSSFVGAMKV*ANALSCDL* -1.194 0.00028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26497 ALCAPSHLGQVVMEDFV 17 SLAY-screened peptide P4847 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTTGTGCGCGCCTTCCCACCTTGGCCAGGTCGTTATGGAGGATTTCGTGTAGTAGATGTAA ALCAPSHLGQVVMEDFV**M* -1.194 0.02836 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26498 PTTPPACSKLRPDHNPLYAV 20 SLAY-screened peptide P4848 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACGACTCCCCCGGCTTGCTCTAAGCTTCGTCCTGACCATAATCCTCTGTATGCTGTGTAA PTTPPACSKLRPDHNPLYAV* -1.194 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26499 RGHCHTPIYPYHCTPCVIYL 20 SLAY-screened peptide P4849 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGGTCATTGTCACACTCCCATTTATCCTTATCATTGTACGCCGTGCGTGATTTACCTCTAA RGHCHTPIYPYHCTPCVIYL* -1.193 0.031396 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26500 RCNLVADLV 9 SLAY-screened peptide P4850 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGCAACCTCGTGGCCGACCTCGTTTAGTATATGGATAAGCTGCCCCTTAGTGAGTTTTAA RCNLVADLV*YMDKLPLSEF* -1.193 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26501 DIRAHTSTLVGRLT 14 SLAY-screened peptide P4851 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACATTAGGGCCCACACCTCCACTTTGGTCGGCCGCCTTACTTAGTTCTACTGGTGGTTCTAA DIRAHTSTLVGRLT*FYWWF* -1.193 0.000798 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26502 VGIT 4 SLAY-screened peptide P4852 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGGTATTACCTAGTTTCCGCATTGTTACGATCTTACTACCATTTATATGAACGACCGTTAA VGIT*FPHCYDLTTIYMNDR* -1.193 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26503 LRRSFAVPLVGITLTWRDIN 20 SLAY-screened peptide P4853 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGCCGTTCTTTTGCGGTCCCCCTTGTCGGGATCACGCTGACCTGGCGCGATATTAACTAA LRRSFAVPLVGITLTWRDIN* -1.193 0.000071 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26504 PSGLRNDAWHCTPAYLYLFG 20 SLAY-screened peptide P4854 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGCGGCTTGCGCAATGATGCCTGGCACTGTACTCCTGCCTACCTCTACCTGTTTGGCTAA PSGLRNDAWHCTPAYLYLFG* -1.193 0.023385 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26505 PSCPSIPRLFLLSNSWNGLK 20 SLAY-screened peptide P4855 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCGTGCCCCAGCATCCCTCGTTTGTTTCTCTTGTCCAACTCCTGGAATGGGCTCAAGTAA PSCPSIPRLFLLSNSWNGLK* -1.193 0.018608 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26506 GQTLCIESLVPLVTRRHCVA 20 SLAY-screened peptide P4856 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCAGACCCTCTGTATCGAGAGTCTGGTCCCGCTCGTCACCCGTAGGCATTGCGTTGCCTAA GQTLCIESLVPLVTRRHCVA* -1.192 0.013038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26507 RAQPS 5 SLAY-screened peptide P4857 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGCCCAGCCCAGTTAGCATATTGCCATCTCTCTTAGTCACCATGCCACGGGCTAACTGAGT RAQPS*HIAISLSHHATG*LS -1.192 0.000019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26508 TQNEITTPSVCTPFVEIHID 20 SLAY-screened peptide P4858 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCAGAACGAGATTACTACGCCCAGTGTTTGCACCCCTTTCGTGGAGATTCATATTGATTAA TQNEITTPSVCTPFVEIHID* -1.192 0.021869 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26509 FTHKYSSYGSTGLTQSIGRA 20 SLAY-screened peptide P4859 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACTCACAAGTATTCTAGCTATGGGTCCACCGGGCTTACCCAGAGTATCGGGCGTGCGTAA FTHKYSSYGSTGLTQSIGRA* -1.191 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26510 EDYYNTITTPAGHAAFTSHI 20 SLAY-screened peptide P4860 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGACTACTACAACACCATTACTACCCCGGCTGGGCACGCTGCCTTTACCTCCCATATCTAA EDYYNTITTPAGHAAFTSHI* -1.191 0.00445 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26511 GTRHLAPCFPRSPSIVVPSP 20 SLAY-screened peptide P4861 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCACTCGTCACCTCGCCCCGTGCTTCCCTCGTAGTCCGTCTATCGTCGTCCCTAGTCCCTAA GTRHLAPCFPRSPSIVVPSP* -1.191 0.001022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26512 LYLLDFTSGVTYLCIDPSLT 20 SLAY-screened peptide P4862 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTACCTCCTGGACTTCACGTCGGGCGTCACTTACCTTTGTATTGACCCTTCCTTGACTTAA LYLLDFTSGVTYLCIDPSLT* -1.191 0.000211 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26513 TINARASGFTNNTRYWIRWV 20 SLAY-screened peptide P4863 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCATCAATGCCAGGGCCTCTGGCTTTACGAACAACACCAGGTATTGGATTCGTTGGGTCTAA TINARASGFTNNTRYWIRWV* -1.19 0.044173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26514 PVSRSRRRRGCYRLRCWNTY 20 SLAY-screened peptide P4864 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTTTCTAGGAGCCGGCGCAGGCGCGGGTGTTATCGTCTCAGGTGTTGGAATACTTACTAA PVSRSRRRRGCYRLRCWNTY* -1.19 0.019833 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26515 VHQTDWANEPYPMHYRATLT 20 SLAY-screened peptide P4865 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCATCAGACCGACTGGGCTAATGAGCCGTACCCTATGCACTACCGTGCTACCCTCACTTAA VHQTDWANEPYPMHYRATLT* -1.189 0.000496 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26516 TSYSNGQSTPLV 12 SLAY-screened peptide P4866 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCCTACAGCAACGGTCAGTCGACTCCTTTGGTATAATGATAATGAGACTCTGACCTAACT TSYSNGQSTPLV****DSDLT -1.189 0.011008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26517 GLDSCYAI 8 SLAY-screened peptide P4867 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCTCGACAGCTGCTACGCGATCTAGAGCAGCTGGTGCATTAACAATAGTTGGGAGAACTAA GLDSCYAI*SSWCINNSWEN* -1.189 0.000378 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26518 PLSTSMAHSISPACCITSHP 20 SLAY-screened peptide P4868 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTTAGCACGTCTATGGCCCATTCTATCTCGCCTGCCTGTTGCATTACTTCGCATCCGTAA PLSTSMAHSISPACCITSHP* -1.189 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26519 LTHNLALFHTHDAVLHQNKT 20 SLAY-screened peptide P4869 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCACCCATAACTTGGCCTTGTTCCATACGCATGACGCTGTCTTGCACCAGAATAAGACGTAA LTHNLALFHTHDAVLHQNKT* -1.189 0.006851 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26520 CVNTCVCGTVATPSLHKS 18 SLAY-screened peptide P4870 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGTGAACACGTGTGTTTGTGGCACTGTTGCTACGCCGAGTCTCCACAAGAGCTAGTATTAA CVNTCVCGTVATPSLHKS*Y* -1.189 0.03874 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26521 PTLIKFLAVFLHSNLCCSRY 20 SLAY-screened peptide P4871 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACGCTCATTAAGTTCCTTGCGGTCTTCTTGCATAGTAACCTGTGCTGTAGTCGCTACTAA PTLIKFLAVFLHSNLCCSRY* -1.188 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26522 RSHCGIPTHSIPWVLHTYSI 20 SLAY-screened peptide P4872 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTCCCACTGTGGTATTCCCACTCACAGTATTCCTTGGGTTCTTCATACTTACTCGATCTAA RSHCGIPTHSIPWVLHTYSI* -1.188 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26523 NSSIKPTDTSSYCYMPRLTP 20 SLAY-screened peptide P4873 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCTAGCATTAAGCCTACTGATACGAGTAGCTATTGTTACATGCCTCGCCTGACCCCCTAA NSSIKPTDTSSYCYMPRLTP* -1.188 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26524 MNSLYNLSIIDGLHTKESSL 20 SLAY-screened peptide P4874 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGAATAGTTTGTATAACTTGTCTATCATTGATGGCTTGCACACCAAGGAGTCCTCCCTGTAA MNSLYNLSIIDGLHTKESSL* -1.188 0.003196 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26525 EASDFSAPSSNARFFTYHLF 20 SLAY-screened peptide P4875 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGCTTCTGATTTTAGCGCCCCCTCTAGCAATGCTCGGTTTTTTACTTACCACCTTTTCTAA EASDFSAPSSNARFFTYHLF* -1.188 0.001291 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26526 YPHCHTKPLYDLEVHTNNSY 20 SLAY-screened peptide P4876 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCTCACTGCCATACTAAGCCCCTTTATGACCTGGAGGTGCATACCAATAATAGTTACTAA YPHCHTKPLYDLEVHTNNSY* -1.188 0.036753 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26527 VYSYSITIIGLVHIYILVVH 20 SLAY-screened peptide P4877 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTATTCTTACTCCATCACTATCATCGGGTTGGTCCACATCTACATTCTCGTCGTCCATTAA VYSYSITIIGLVHIYILVVH* -1.188 0.002534 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26528 GEPNSMHTYRRLGITCLHCL 20 SLAY-screened peptide P4878 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGAGCCGAACTCGATGCACACCTACCGTCGTCTTGGTATCACTTGCCTTCACTGTCTTTAA GEPNSMHTYRRLGITCLHCL* -1.188 0.001783 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26529 LAPVSANISTTTPFAL 16 SLAY-screened peptide P4879 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCCCCCGTCTCCGCTAATATTTCGACGACCACCCCATTCGCCTTATGAAGCACGTCTAAC LAPVSANISTTTPFAL*STSN -1.187 0.005502 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26530 PCDSGSIYPFYHHRYSYVST 20 SLAY-screened peptide P4880 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGTGACTCGGGTTCTATTTACCCCTTCTACCATCATCGCTACTCGTACGTTAGCACGTAA PCDSGSIYPFYHHRYSYVST* -1.187 0.022832 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26531 ADTLIRRWTGRPDQFDCVIA 20 SLAY-screened peptide P4881 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGACACCCTTATTCGCCGTTGGACTGGCAGGCCTGATCAGTTCGACTGCGTGATTGCCTAA ADTLIRRWTGRPDQFDCVIA* -1.187 0.035187 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26532 SYWGALTGNINRTFIITYSP 20 SLAY-screened peptide P4882 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTATTGGGGCGCTCTTACCGGTAACATTAACCGCACCTTCATCATTACGTACAGTCCCTAA SYWGALTGNINRTFIITYSP* -1.187 0.002764 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26533 CGRIITSPFHPSWPLAIFAL 20 SLAY-screened peptide P4883 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGGCCGCATCATCACCAGCCCCTTTCACCCGAGCTGGCCCCTCGCGATCTTCGCTCTTTAA CGRIITSPFHPSWPLAIFAL* -1.187 0.023796 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26534 HARDPTDATSSRRTRLSNAF 20 SLAY-screened peptide P4884 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCCAGGGATCCCACTGACGCGACTTCTTCCAGGCGTACGCGGTTGTCCAACGCCTTTTAA HARDPTDATSSRRTRLSNAF* -1.187 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26535 IVMLFIFRLANSPSNNLLTH 20 SLAY-screened peptide P4885 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCGTCATGCTGTTTATTTTTCGGTTGGCTAATTCGCCTTCTAACAACCTGCTTACTCATTAA IVMLFIFRLANSPSNNLLTH* -1.186 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26536 RCAGRGAASTPLRRLVNWLL 20 SLAY-screened peptide P4886 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTGTGCCGGCCGCGGCGCCGCCTCTACGCCCCTGCGTAGGTTGGTTAATTGGCTCCTCTAA RCAGRGAASTPLRRLVNWLL* -1.186 0.001187 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26537 NAICNSEGYPVGLANMLTQC 20 SLAY-screened peptide P4887 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGCCATTTGTAACTCTGAGGGCTATCCCGTTGGCCTCGCTAATATGCTTACGCAGTGCTAA NAICNSEGYPVGLANMLTQC* -1.186 0.002457 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26538 ASANQDPVASEWSALPGYTI 20 SLAY-screened peptide P4888 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTCCGCCAACCAGGATCCGGTCGCTTCCGAGTGGTCCGCTTTGCCTGGGTACACCATCTAA ASANQDPVASEWSALPGYTI* -1.186 0.025128 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26539 CDAPYNNSPPGWNPFSMLVS 20 SLAY-screened peptide P4889 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGACGCGCCCTACAACAATAGTCCTCCTGGTTGGAATCCGTTTAGTATGCTTGTTTCTTAA CDAPYNNSPPGWNPFSMLVS* -1.186 0.001019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26540 PFDWCRFSLETYLFCSMYRS 20 SLAY-screened peptide P4890 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTCGATTGGTGCCGCTTCAGCCTTGAGACGTATCTCTTCTGTTCCATGTACCGGTCGTAA PFDWCRFSLETYLFCSMYRS* -1.186 0.00022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26541 ARNALGLFHNYRHQL 15 SLAY-screened peptide P4891 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCGTAACGCGTTGGGCCTCTTCCATAATTATCGCCATCAGCTCTAGCGGGCTAATTCTTAA ARNALGLFHNYRHQL*RANS* -1.186 0.02462 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26542 IDCKDFKFFTLALMIISLTLN 21 SLAY-screened peptide P4892 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGACTGTAAGGATTTTAAGTTCTTTACACTTGCTTTAATGATTATCTCTTTGACACTTAAC IDCKDFKFFTLALMIISLTLN -1.185 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26543 AQPTNHNRATGGPTHHDLDL 20 SLAY-screened peptide P4893 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCAGCCTACGAATCATAACCGTGCCACTGGCGGCCCGACGCACCACGACCTTGACCTCTAA AQPTNHNRATGGPTHHDLDL* -1.185 0.031291 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26544 WMSSPTNYSKVNIFRR 16 SLAY-screened peptide P4894 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGATGTCTAGCCCCACGAACTACAGTAAGGTTAACATTTTTCGTCGTTGACTCACCATTAAC WMSSPTNYSKVNIFRR*LTIN -1.185 0.043914 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26545 LQYAAPISPSNLWLTICPLM 20 SLAY-screened peptide P4895 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCAGTACGCTGCGCCTATTTCCCCTTCTAACCTTTGGTTGACTATTTGCCCCCTTATGTAA LQYAAPISPSNLWLTICPLM* -1.184 0.004279 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26546 NFVAFLPTCLPDFDFSMHYL 20 SLAY-screened peptide P4896 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTTTGTTGCTTTTCTTCCTACGTGTCTCCCTGACTTTGATTTTTCGATGCACTATCTCTAA NFVAFLPTCLPDFDFSMHYL* -1.184 0.000035 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26547 RCGSINSDHLDYRASQVESL 20 SLAY-screened peptide P4897 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGTGTGGTTCTATTAATAGTGATCACCTTGACTATCGCGCGAGCCAGGTGGAGTCTCTGTAA RCGSINSDHLDYRASQVESL* -1.183 0.011878 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26548 SRTARALGPWLSGYSYPGCY 20 SLAY-screened peptide P4898 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGCACTGCGCGCGCTCTTGGTCCGTGGCTTAGTGGCTACTCGTACCCGGGCTGTTATTAA SRTARALGPWLSGYSYPGCY* -1.183 0.001301 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26549 LVAFASSSMLLVLLDVQLT 19 SLAY-screened peptide P4899 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGGTTGCGTTTGCTAGTTCCTCCATGCTCCTTGTGCTTCTCGACGTTCAGCTTACGTAGTAA LVAFASSSMLLVLLDVQLT** -1.183 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26550 PNSGSHSVPHAWPTV 15 SLAY-screened peptide P4900 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATAGCGGTTCTCATAGTGTTCCCCACGCCTGGCCCACTGTCTAGATCGACAGCTATTAA PNSGSHSVPHAWPTV*IDSY* -1.183 0.018992 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26551 CNVIKAICVCFTSDSVIHCY 20 SLAY-screened peptide P4901 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAACGTTATTAAGGCCATCTGCGTTTGCTTTACTAGCGACTCTGTTATTCATTGTTATTAA CNVIKAICVCFTSDSVIHCY* -1.183 0.026642 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26552 LVTAHLYPSIVPNIVG 16 SLAY-screened peptide P4902 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGGTCACCGCTCATCTTTATCCCTCTATCGTTCCCAACATTGTCGGCTAGTATTCCGATTAA LVTAHLYPSIVPNIVG*YSD* -1.183 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26553 PDALPSSHISYIICGPHSSS 20 SLAY-screened peptide P4903 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGACGCCCTTCCTAGTTCGCATATCTCTTATATTATTTGCGGCCCCCACTCCAGCAGTTAA PDALPSSHISYIICGPHSSS* -1.183 0.026844 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26554 LCVTYVAQNVPSLESNKFNS 20 SLAY-screened peptide P4904 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGCGTCACCTACGTCGCCCAGAATGTCCCTTCCCTTGAGTCTAACAAGTTCAACAGTTAA LCVTYVAQNVPSLESNKFNS* -1.183 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26555 FISRTRLHLDTLGI 14 SLAY-screened peptide P4905 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCATTTCCCGTACTAGGCTTCATCTGGATACCCTGGGCATCTAGTATGCGCGTCTTTCGAAT FISRTRLHLDTLGI*YARLSN -1.182 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26556 TPLLWLWARTRPRFRKYIFI 20 SLAY-screened peptide P4906 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCCCCTTTTGTGGCTGTGGGCTAGGACCCGTCCGCGCTTCCGCAAGTACATTTTTATTTAA TPLLWLWARTRPRFRKYIFI* -1.182 0.025399 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26557 TKYSHCDPYDLHNLYSSFSA 20 SLAY-screened peptide P4907 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAAGTACTCCCACTGTGACCCCTATGATCTTCATAATCTGTACTCTTCCTTTTCTGCTTAA TKYSHCDPYDLHNLYSSFSA* -1.182 0.003417 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26558 WDSDFPQYILLL 12 SLAY-screened peptide P4908 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGGATTCTGATTTTCCGCAGTACATTCTTCTCCTCTAGGAGACCGCTTTCCATGCTTCTTAA WDSDFPQYILLL*ETAFHAS* -1.182 0.001962 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26559 HCPPPFYMLESKTGRYNHYV 20 SLAY-screened peptide P4909 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGCCCCCCCCCCTTCTATATGCTCGAGTCTAAGACGGGCCGCTATAACCACTACGTTTAA HCPPPFYMLESKTGRYNHYV* -1.182 0.028625 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26560 ICISPWDDTVYIPGVRMWHL 20 SLAY-screened peptide P4910 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTGTATCTCCCCCTGGGACGATACTGTCTATATTCCGGGTGTCCGGATGTGGCACCTCTAA ICISPWDDTVYIPGVRMWHL* -1.181 0.000386 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26561 STCCQFTNGCGWHYIQAATS 20 SLAY-screened peptide P4911 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCACTTGCTGTCAGTTTACGAACGGCTGCGGGTGGCACTATATCCAGGCCGCTACCTCCTAA STCCQFTNGCGWHYIQAATS* -1.181 0.016623 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26562 HAGFSLLYTWSAWRGRTYTL 20 SLAY-screened peptide P4912 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCTGGCTTCTCCCTCCTCTACACTTGGAGCGCGTGGCGCGGTCGTACTTACACGCTGTAA HAGFSLLYTWSAWRGRTYTL* -1.181 0.000041 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26563 PPSNFNRWPATCVIVSGMHY 20 SLAY-screened peptide P4913 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCCAGTAACTTCAACCGTTGGCCCGCTACTTGTGTTATTGTTAGTGGCATGCATTATTAA PPSNFNRWPATCVIVSGMHY* -1.181 0.030921 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26564 TAGLSSANTCVPPCLRLSLPL 21 SLAY-screened peptide P4914 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCTGGGCTCAGTAGCGCCAACACGTGCGTCCCGCCCTGCTTACGATTGTCGCTCCCCTTA TAGLSSANTCVPPCLRLSLPL -1.18 0.004067 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26565 TCFGSLLYLANSPAPE 16 SLAY-screened peptide P4915 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTGTTTTGGGAGTCTGCTGTACCTGGCTAATAGCCCGGCCCCCGAGTAGTTTCACTTTTAA TCFGSLLYLANSPAPE*FHF* -1.18 0.000164 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26566 ACVASLVLTVDHTRLSVLFA 20 SLAY-screened peptide P4916 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTGTGTTGCTAGCCTCGTCCTCACCGTTGACCATACTCGCCTCTCCGTTCTTTTCGCGTAA ACVASLVLTVDHTRLSVLFA* -1.18 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26567 CPGRLHTCFDLWYPMVLIAFN 21 SLAY-screened peptide P4917 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCCGGTCGGCTCCATACTTGTTTCGATCTCTGGTATCCAATGGTTCTAATTGCCTTTAAC CPGRLHTCFDLWYPMVLIAFN -1.18 0.001556 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26568 IIGTVCNCLSYYWAYCLYTL 20 SLAY-screened peptide P4918 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCATTGGTACGGTGTGCAATTGCTTGTCGTACTATTGGGCTTACTGCTTGTACACCCTTTAA IIGTVCNCLSYYWAYCLYTL* -1.18 0.002485 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26569 SSNHGNACFCNWHHNIINCF 20 SLAY-screened peptide P4919 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTCCAACCATGGCAACGCTTGCTTTTGCAACTGGCATCACAATATTATCAATTGTTTTTAA SSNHGNACFCNWHHNIINCF* -1.18 0.004466 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26570 NNPNVHTRCDIPVPAFVLA 19 SLAY-screened peptide P4920 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAACCCTAACGTCCACACGAGGTGTGATATTCCCGTTCCCGCCTTTGTTCTTGCGTAACTG NNPNVHTRCDIPVPAFVLA*L -1.179 0.013512 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26571 NDLLGVSFSYAII 13 SLAY-screened peptide P4921 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGATCTCCTGGGTGTTAGTTTCAGCTATGCCATTATCTAGTGCCCGGATTACAAGTAACTG NDLLGVSFSYAII*CPDYK*L -1.179 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26572 PHPDRYYANITFVSREFPSA 20 SLAY-screened peptide P4922 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCATCCCGACCGCTACTACGCTAACATCACCTTTGTTTCTCGCGAGTTTCCTTCCGCGTAA PHPDRYYANITFVSREFPSA* -1.178 0.001477 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26573 DDWSLPRSLVFRWSRDSIPN 20 SLAY-screened peptide P4923 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGACTGGTCGCTTCCTCGGTCCCTGGTTTTTCGTTGGTCCAGGGACAGTATCCCTAATTAA DDWSLPRSLVFRWSRDSIPN* -1.178 0.00338 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26574 PPTAKTSPSNYAPYK 15 SLAY-screened peptide P4924 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTACTGCCAAGACTTCCCCGTCGAATTACGCGCCCTATAAGTAGTTGTACGATGAGTAA PPTAKTSPSNYAPYK*LYDE* -1.178 0.001918 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26575 CHYDIFHNCSMDYSIFLKYL 20 SLAY-screened peptide P4925 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACTATGACATTTTCCATAATTGCTCCATGGATTATAGCATTTTCCTTAAGTACCTCTAA CHYDIFHNCSMDYSIFLKYL* -1.178 0.000157 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26576 PRHPDTKKYSDSYTLCPLWLL 21 SLAY-screened peptide P4926 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGCCACCCGGACACTAAGAAGTACAGCGATAGTTATACGCTTTGTCCTTTGTGGCTATTA PRHPDTKKYSDSYTLCPLWLL -1.178 0.035818 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26577 PNTFFRANSHLIDICRDAPT 20 SLAY-screened peptide P4927 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATACGTTTTTCCGGGCTAATTCCCACCTGATCGACATTTGCCGTGATGCTCCGACGTAA PNTFFRANSHLIDICRDAPT* -1.177 0.000089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26578 ARLHSKVREHSLSSAC 16 SLAY-screened peptide P4928 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGGCTCCACAGTAAGGTTCGCGAGCACTCGCTTTCTAGCGCCTGTTAGTGTCTCAATTAA ARLHSKVREHSLSSAC*CLN* -1.177 0.022829 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26579 SRSFCSPRVRPPLLVAPLYM 20 SLAY-screened peptide P4929 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGGTCCTTCTGCTCCCCCCGGGTCCGCCCCCCCTTGCTTGTCGCCCCGCTCTATATGTAA SRSFCSPRVRPPLLVAPLYM* -1.177 0.001475 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26580 CRDSTGPATGSPTYIIPVHI 20 SLAY-screened peptide P4930 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGTGATAGCACGGGTCCGGCCACTGGGTCCCCCACTTACATTATCCCCGTCCATATTTAA CRDSTGPATGSPTYIIPVHI* -1.177 0.0001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26581 HLRHSVTTGDTRNHNGHSLRN 21 SLAY-screened peptide P4931 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTTCGCCACTCGGTTACCACCGGTGACACCCGGAACCATAACGGCCATTCCCTCCGTAAC HLRHSVTTGDTRNHNGHSLRN -1.177 0.00123 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26582 TDETHLALYQSTNEIPNIRN 20 SLAY-screened peptide P4932 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGACGAGACTCATTTGGCCCTCTACCAGAGTACCAACGAGATTCCGAATATTAGGAATTAA TDETHLALYQSTNEIPNIRN* -1.177 0.012115 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26583 SGLTNLSTTYYRLRCIHLNN 20 SLAY-screened peptide P4933 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGGCCTGACTAATCTCTCTACGACGTACTATCGTTTGCGCTGTATCCACCTTAATAACTAA SGLTNLSTTYYRLRCIHLNN* -1.177 0.012233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26584 PIAAKPDTRFDNCVLLHHSV 20 SLAY-screened peptide P4934 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATTGCTGCCAAGCCTGATACGCGGTTCGATAATTGTGTGCTCTTGCACCATTCGGTCTAA PIAAKPDTRFDNCVLLHHSV* -1.177 0.00061 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26585 LNSDHYTLEDPMLPFVSPRR 20 SLAY-screened peptide P4935 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGAACTCCGACCACTATACCCTTGAGGACCCCATGCTTCCCTTTGTTTCGCCGCGTAGGTAA LNSDHYTLEDPMLPFVSPRR* -1.177 0.003818 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26586 RYRFPAPVYSSSNHCYTYGY 20 SLAY-screened peptide P4936 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTATAGGTTTCCCGCGCCTGTTTATTCTAGTAGTAATCACTGTTACACGTATGGTTACTAA RYRFPAPVYSSSNHCYTYGY* -1.177 0.015201 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26587 ARDLPPAFASGYGGRCLYLW 20 SLAY-screened peptide P4937 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCGCGATCTTCCCCCGGCCTTCGCCTCGGGGTACGGTGGTCGTTGTCTTTACCTTTGGTAA ARDLPPAFASGYGGRCLYLW* -1.177 0.000224 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26588 TTNIIKKLVSACLKRASLF 19 SLAY-screened peptide P4938 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACCAACATTATCAAGAAACTCGTTTCAGCATGTCTCAAGCGCGCCTCCCTGTTCTAACTG TTNIIKKLVSACLKRASLF*L -1.177 0.000015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26589 TVGIFNAATDFGHPTLTPFM 20 SLAY-screened peptide P4939 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTTGGGATCTTCAATGCTGCTACCGATTTCGGGCATCCGACGCTCACTCCGTTTATGTAA TVGIFNAATDFGHPTLTPFM* -1.175 0.007466 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26590 ADPLTSCDFYLLQYASL 17 SLAY-screened peptide P4940 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGACCCCCTGACCTCTTGCGATTTCTACCTTTTGCAGTACGCCAGTTTGTAGCGCGTCTAA ADPLTSCDFYLLQYASL*RV* -1.175 0.008808 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26591 VIMRSHCSTNISRNTSNHTY 20 SLAY-screened peptide P4941 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGATTATGCGGAGCCACTGTAGTACCAACATTAGCCGCAATACCAGTAACCATACTTATTAA VIMRSHCSTNISRNTSNHTY* -1.174 0.004909 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26592 GLNLPTCGKLGVTPVITVIL 20 SLAY-screened peptide P4942 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCTGAACCTTCCCACTTGTGGGAAGCTCGGTGTCACGCCCGTTATTACGGTTATTCTCTAA GLNLPTCGKLGVTPVITVIL* -1.173 0.000808 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26593 MNLASPRFILIPMC 14 SLAY-screened peptide P4943 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGAACCTTGCAAGCCCACGATTCATTCTGATACCGATGTGTTGACCCCTAGTATGTAACTGA MNLASPRFILIPMC*PLVCN* -1.173 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26594 EQCEVPQTNYSLQTNSWVEL 20 SLAY-screened peptide P4944 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCAGTGTGAGGTCCCCCAGACGAACTATTCCCTCCAGACCAATTCCTGGGTTGAGCTCTAA EQCEVPQTNYSLQTNSWVEL* -1.173 0.004297 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26595 FFCPTLYRSPLDRLSIVHPS 20 SLAY-screened peptide P4945 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTTTTGTCCGACTCTCTACAGGAGCCCTCTCGACCGCTTGTCTATTGTTCACCCCTCTTAA FFCPTLYRSPLDRLSIVHPS* -1.173 0.04991 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26596 HCYCYPHHFHDNPFLRLICF 20 SLAY-screened peptide P4946 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGCTACTGCTACCCTCATCATTTCCATGACAATCCGTTCCTTAGGCTGATTTGTTTTTAA HCYCYPHHFHDNPFLRLICF* -1.172 0.000131 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26597 HPNDRHIHD 9 SLAY-screened peptide P4947 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCCAATGACCGCCATATTCATGACTAGCACCGCGCCAAGCAGCACTGCCACCGCCCGTAA HPNDRHIHD*HRAKQHCHRP* -1.172 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26598 IHCLMSSA 8 SLAY-screened peptide P4948 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCATTGCTTGATGAGTTCTGCCTGATGCCTGTCAGGACGTGCAACAACAGGCCGAAGTAAC IHCLMSSA*CLSGRATTGRSN -1.172 0.01329 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26599 CPGNANYSFCNWHCWTPLFG 20 SLAY-screened peptide P4949 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCTGGGAATGCTAACTATAGCTTTTGCAACTGGCATTGTTGGACGCCGCTCTTTGGTTAA CPGNANYSFCNWHCWTPLFG* -1.172 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26600 CSLFFPTIYHMA 12 SLAY-screened peptide P4950 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTCGCTTTTCTTCCCCACTATCTACCATATGGCTTAGTTTGGGCCCTTTCACTGGATCTAA CSLFFPTIYHMA*FGPFHWI* -1.172 0.01406 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26601 LKPYRILSNWIAGLTTLPFN 20 SLAY-screened peptide P4951 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGAAGCCCTATCGCATTCTCTCCAACTGGATTGCGGGGCTGACCACGTTGCCCTTTAACTAA LKPYRILSNWIAGLTTLPFN* -1.172 0.008599 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26602 LKRNHTTRQKHYGLLPCWNT 20 SLAY-screened peptide P4952 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAAGCGGAATCACACCACCCGCCAGAAGCACTACGGCCTTCTTCCTTGCTGGAATACCTAA LKRNHTTRQKHYGLLPCWNT* -1.171 0.001675 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26603 TTNSYDFIITSCSVPARHNP 20 SLAY-screened peptide P4953 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACCAATTCCTATGACTTCATTATCACTTCGTGTTCGGTCCCCGCCCGGCACAATCCCTAA TTNSYDFIITSCSVPARHNP* -1.171 0.025223 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26604 GSCALLGEFPN 11 SLAY-screened peptide P4954 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTCGTGTGCTCTGCTTGGGGAGTTTCCGAACTAGTTGCATCCGACTCATACGTAGCATTAA GSCALLGEFPN*LHPTHT*H* -1.171 0.03453 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26605 PARPNTTHNIVSSATSWLST 20 SLAY-screened peptide P4955 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCGCGTCCTAACACCACGCACAATATCGTGTCTTCGGCTACGAGTTGGTTGAGTACTTAA PARPNTTHNIVSSATSWLST* -1.171 0.000422 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26606 QSPYLIPMHLSIYYSNVKPP 20 SLAY-screened peptide P4956 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAGCCCTTATCTTATCCCGATGCACTTGAGCATTTATTATTCCAATGTTAAGCCGCCGTAA QSPYLIPMHLSIYYSNVKPP* -1.171 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26607 AAMNPNRTPLGAPSCGDLTF 20 SLAY-screened peptide P4957 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGCTATGAACCCGAATCGCACCCCGCTCGGGGCCCCTTCCTGCGGTGATCTCACTTTCTAA AAMNPNRTPLGAPSCGDLTF* -1.17 0.000125 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26608 PYCLAVS 7 SLAY-screened peptide P4958 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTACTGCCTTGCCGTTTCTTAGAGTTGCGTGACGGTTCTCATTTCCGCGCATGTGTGGTAA PYCLAVS*SCVTVLISAHVW* -1.17 0.012656 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26609 YHCWSPVYHSFQDPYNLSTH 20 SLAY-screened peptide P4959 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCACTGTTGGAGTCCGGTCTACCATAGTTTTCAGGATCCCTATAATTTGAGTACTCATTAA YHCWSPVYHSFQDPYNLSTH* -1.17 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26610 RDATITYKVMLIFIIIAVRRN 21 SLAY-screened peptide P4960 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGATGCCACGATTACCTATAAAGTCATGCTGATTTTTATTATTATTGCCGTAAGGCGTAAC RDATITYKVMLIFIIIAVRRN -1.17 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26611 LRFYSLTDKNYSEINCTIPS 20 SLAY-screened peptide P4961 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCGGTTTTATTCCCTCACTGATAAGAATTATAGCGAGATCAACTGCACTATTCCGTCCTAA LRFYSLTDKNYSEINCTIPS* -1.17 0.00171 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26612 AFYKRLMFHRCLMRIRVIRQ 20 SLAY-screened peptide P4962 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTTTTACAAGCGCCTTATGTTTCATCGTTGTCTGATGAGGATCAGGGTCATTCGTCAGTAA AFYKRLMFHRCLMRIRVIRQ* -1.169 0.014128 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26613 RHRVTLFLALTTKSMTGFSR 20 SLAY-screened peptide P4963 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCACCGCGTGACTCTCTTCCTTGCGCTGACTACTAAGAGTATGACGGGTTTCTCGCGTTAA RHRVTLFLALTTKSMTGFSR* -1.169 0.000157 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26614 PSRCHHPVLLYTASLRNFSD 20 SLAY-screened peptide P4964 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTCCCGGTGCCACCATCCTGTGCTCCTGTACACGGCCTCGCTGCGCAACTTCTCGGATTAA PSRCHHPVLLYTASLRNFSD* -1.169 0.000304 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26615 HPTCSCRIPSSFPPPAVSVT 20 SLAY-screened peptide P4965 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCCGACGTGCTCCTGCCGTATTCCTTCCTCTTTTCCGCCTCCGGCCGTGAGCGTTACGTAA HPTCSCRIPSSFPPPAVSVT* -1.169 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26616 LLST 4 SLAY-screened peptide P4966 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTTGTCTACCTAGTTCCTTCACGATCTTACGAATTATTGGCACTAGAGGACGTCCATGTAA LLST*FLHDLTNYWH*RTSM* -1.169 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26617 AFLTGPDSIDPHNLPAYVSY 20 SLAY-screened peptide P4967 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTTCCTGACCGGGCCGGACAGCATTGACCCCCACAATCTCCCGGCTTATGTCTCGTACTAA AFLTGPDSIDPHNLPAYVSY* -1.169 0.002997 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26618 ATSSDYHDGTALKSINHSQI 20 SLAY-screened peptide P4968 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGACCAGTAGTGATTATCATGACGGTACGGCTTTGAAGTCTATCAACCACTCCCAGATTTAA ATSSDYHDGTALKSINHSQI* -1.169 0.001551 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26619 CLLNWPQNHCRFCGSHQDWT 20 SLAY-screened peptide P4969 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCCTGAATTGGCCCCAGAACCACTGCCGCTTCTGTGGCAGCCATCAGGATTGGACTTAA CLLNWPQNHCRFCGSHQDWT* -1.169 0.000759 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26620 RESCWRFIKLDNALYYRSKTE 21 SLAY-screened peptide P4970 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGGAGTCCTGCTGGCGTTTCATCAAGCTCGATAATGCCTTGTATTACCGTTCCAAGACTGAG RESCWRFIKLDNALYYRSKTE -1.168 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26621 NASCPPSCLNHHRGLPK 17 SLAY-screened peptide P4971 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACGCCAGCTGTCCCCCCTCCTGCCTTAATCACCACCGTGGTCTTCCCAAGTAGACGAAGTAA NASCPPSCLNHHRGLPK*TK* -1.168 0.016649 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26622 ACPRARVIREALLGLIPDER 20 SLAY-screened peptide P4972 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTGCCCCCGCGCGCGGGTTATTCGTGAGGCCCTTCTCGGCCTGATTCCGGACGAGCGCTAA ACPRARVIREALLGLIPDER* -1.168 0.007268 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26623 PRVIHTPSYNSRHSDNLLST 20 SLAY-screened peptide P4973 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTGTCATTCATACTCCCTCTTACAACTCTAGGCATAGTGATAATTTGCTGAGTACCTAA PRVIHTPSYNSRHSDNLLST* -1.168 0.000039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26624 MLFTRPFLYYRAYAYPTYMV 20 SLAY-screened peptide P4974 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCTGTTTACCCGTCCGTTTCTGTACTATCGCGCGTATGCCTATCCCACCTATATGGTCTAA MLFTRPFLYYRAYAYPTYMV* -1.168 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26625 SIGHSCPKQMDNQGLLLAWT 20 SLAY-screened peptide P4975 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCATTGGCCATAGTTGTCCTAAGCAGATGGATAATCAGGGGCTCCTCTTGGCGTGGACCTAA SIGHSCPKQMDNQGLLLAWT* -1.168 0.000041 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26626 RRPFSSVLIILLLLRGVMMGN 21 SLAY-screened peptide P4976 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGCCCCTTTAGTTCAGTTCTCATCATTTTGCTGTTATTGCGAGGCGTCATGATGGGTAAC RRPFSSVLIILLLLRGVMMGN -1.168 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26627 PCSPHFPDYPNMVSKLLLQA 20 SLAY-screened peptide P4977 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGCTCGCCTCACTTTCCGGATTATCCGAACATGGTTTCGAAGCTCCTGCTCCAGGCCTAA PCSPHFPDYPNMVSKLLLQA* -1.167 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26628 EQENEYDHGTYKGPIPQFFF 20 SLAY-screened peptide P4978 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCAGGAGAATGAGTATGACCATGGGACGTACAAGGGTCCTATTCCCCAGTTTTTTTTCTAA EQENEYDHGTYKGPIPQFFF* -1.167 0.000102 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26629 RLSACINPFCISSDTDF 17 SLAY-screened peptide P4979 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCTTAGCGCGTGCATTAACCCCTTTTGCATCTCTAGCGATACCGACTTCTAGCGTCCCTAA RLSACINPFCISSDTDF*RP* -1.167 0.030602 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26630 APRNAKLFIYWKSTSEDVSCL 21 SLAY-screened peptide P4980 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCTCGTAACGCGAAGCTTTTCATCTACTGGAAGTCCACTTCCGAGGACGTTAGTTGCTTA APRNAKLFIYWKSTSEDVSCL -1.167 0.014175 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26631 WRYMINPRALLCKMCKRACI 20 SLAY-screened peptide P4981 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCGCTATATGATTAATCCGCGGGCCTTGCTTTGCAAGATGTGTAAGCGTGCCTGCATCTAA WRYMINPRALLCKMCKRACI* -1.167 0.001449 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26632 YYLNCTPFMLQSTQIMKGTY 20 SLAY-screened peptide P4982 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTACCTGAATTGCACGCCGTTTATGCTCCAGAGTACGCAGATCATGAAGGGCACTTATTAA YYLNCTPFMLQSTQIMKGTY* -1.166 0.000167 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26633 NLKSHDYVCFPYAVLQSYNN 20 SLAY-screened peptide P4983 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCTTAAGTCTCATGATTACGTCTGCTTTCCGTACGCTGTTTTGCAGTCTTATAACAACTAA NLKSHDYVCFPYAVLQSYNN* -1.166 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26634 HRTLRPYPSDPIICRHILHF 20 SLAY-screened peptide P4984 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCGTACCCTCCGGCCCTACCCCTCTGACCCCATCATCTGCAGGCACATCCTGCACTTCTAA HRTLRPYPSDPIICRHILHF* -1.166 0.012787 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26635 YCCCLTPHLAAKEQYVLTFF 20 SLAY-screened peptide P4985 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTGCTGCTGTCTTACCCCCCATCTCGCTGCCAAGGAGCAGTACGTTTTGACCTTCTTTTAA YCCCLTPHLAAKEQYVLTFF* -1.166 0.028447 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26636 LRGSLYPAPPTWAWFTPHKT 20 SLAY-screened peptide P4986 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAGGGGGTCGCTTTATCCGGCTCCTCCCACTTGGGCCTGGTTTACCCCTCATAAGACTTAA LRGSLYPAPPTWAWFTPHKT* -1.166 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26637 AQCTPFCNNYDISTNSVTVT 20 SLAY-screened peptide P4987 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCAGTGCACCCCCTTCTGTAATAACTATGACATTTCTACCAATAGTGTTACCGTTACCTAA AQCTPFCNNYDISTNSVTVT* -1.166 0.030683 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26638 AGPLNFCPGLYVPYAGPDLM 20 SLAY-screened peptide P4988 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGGCCCCCTCAATTTTTGCCCCGGCCTTTATGTTCCTTACGCCGGGCCCGATCTTATGTAA AGPLNFCPGLYVPYAGPDLM* -1.166 0.000496 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26639 MSLIPTQWMISLIFFARYRT 20 SLAY-screened peptide P4989 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTCTTTGATTCCTACTCAGTGGATGATCTCTTTGATCTTTTTCGCCAGGTACCGTACGTAA MSLIPTQWMISLIFFARYRT* -1.166 0.003087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26640 LTNFAPGQTLMYRDSTDTKN 20 SLAY-screened peptide P4990 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGACTAATTTTGCGCCCGGGCAGACGTTGATGTACAGGGATTCCACTGATACCAAGAATTAA LTNFAPGQTLMYRDSTDTKN* -1.166 0.007044 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26641 VPHPVSKRVTSLYKLEVTLY 20 SLAY-screened peptide P4991 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCCCACCCTGTGTCTAAGAGGGTCACCTCCCTGTATAAGCTCGAGGTCACGCTGTACTAA VPHPVSKRVTSLYKLEVTLY* -1.166 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26642 FDNLGACPVLWGLTLLS 17 SLAY-screened peptide P4992 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGATAATCTCGGTGCCTGCCCTGTTCTGTGGGGCCTCACTCTTCTCAGTTAGACCCCTTAA FDNLGACPVLWGLTLLS*TP* -1.165 0.029734 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26643 TSSNAPCIHDFHALCNMRPN 20 SLAY-screened peptide P4993 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCTAGTAACGCCCCTTGTATCCATGACTTCCACGCCCTTTGCAACATGCGGCCTAACTAA TSSNAPCIHDFHALCNMRPN* -1.165 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26644 WSNTDHDDHSSLNLIVLYEQ 20 SLAY-screened peptide P4994 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTCCAATACGGACCATGATGATCACTCCAGTTTGAACCTGATCGTCCTCTATGAGCAGTAA WSNTDHDDHSSLNLIVLYEQ* -1.165 0.013518 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26645 HSTYIHPYFCRPLYKLEHSP 20 SLAY-screened peptide P4995 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCCACCTATATCCACCCCTATTTTTGCCGGCCGCTCTATAAGCTCGAGCATTCGCCTTAA HSTYIHPYFCRPLYKLEHSP* -1.165 0.015681 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26646 GDTYKHSTSLLLNHGSSNCML 21 SLAY-screened peptide P4996 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGACACCTACAAGCATAGTACCAGTTTGCTGCTTAATCACGGTTCCTCTAACTGCATGTTA GDTYKHSTSLLLNHGSSNCML -1.164 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26647 SRTIRPCPRPCAIKIHYALE 20 SLAY-screened peptide P4997 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGTACCATCCGTCCCTGCCCTCGCCCTTGTGCGATCAAGATCCACTATGCCTTGGAGTAA SRTIRPCPRPCAIKIHYALE* -1.164 0.049403 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26648 AHYTLLPRNTGCAPQHNAWE 20 SLAY-screened peptide P4998 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCACTACACGCTCTTGCCCCGTAATACGGGTTGCGCGCCCCAGCATAACGCGTGGGAGTAA AHYTLLPRNTGCAPQHNAWE* -1.164 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26649 ASDRP 5 SLAY-screened peptide P4999 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTCGGACCGACCATGACTCCTTGCAATTCTTCTCTTCGCGACCTTCACCATAACAGTTAAC ASDRP*LLAILLFATFTITVN -1.164 0.002613 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26650 LSTTTFLCLARRPRKYEENG 20 SLAY-screened peptide P5000 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTCCACTACGACCTTTTTGTGCCTTGCCAGGCGGCCGAGGAAGTACGAGGAGAATGGCTAA LSTTTFLCLARRPRKYEENG* -1.164 0.006072 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26651 SPPRARPRDPDTTSWGNNLT 20 SLAY-screened peptide P5001 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCCGCCCCGCGCTCGCCCCCGCGATCCCGACACTACCAGCTGGGGCAACAACCTTACCTAA SPPRARPRDPDTTSWGNNLT* -1.164 0.033822 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26652 DNPAYRHQLHYAPPPTDSAH 20 SLAY-screened peptide P5002 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACAATCCTGCTTATCGCCACCAGCTCCACTATGCCCCTCCGCCCACGGATTCCGCGCACTAA DNPAYRHQLHYAPPPTDSAH* -1.163 0.028351 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26653 LKSGKPTCDVDNFYLITFRP 20 SLAY-screened peptide P5003 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAAGTCCGGCAAGCCCACGTGCGACGTCGACAACTTCTACCTCATCACCTTTCGTCCCTAA LKSGKPTCDVDNFYLITFRP* -1.163 0.001394 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26654 HPHSNNHVD 9 SLAY-screened peptide P5004 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTCACTCCAATAACCACGTTGATTAGTGCTATCCGGTCTGCAACAAGAACCTTGATTAA HPHSNNHVD*CYPVCNKNLD* -1.163 0.001304 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26655 YAGKNYMYRLPRLQRSCGIN 20 SLAY-screened peptide P5005 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGCGGGCAAGAATTACATGTATCGTCTCCCTCGCCTCCAGCGGTCTTGTGGGATTAATTAA YAGKNYMYRLPRLQRSCGIN* -1.162 0.026815 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26656 CAHLNCTITVVHDNS 15 SLAY-screened peptide P5006 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGCTCATCTCAACTGCACTATCACGGTTGTCCATGATAATAGTTAGGACGAGATTTTTTAA CAHLNCTITVVHDNS*DEIF* -1.162 0.002414 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26657 SCPGPHQFPLIHINTTYRTF 20 SLAY-screened peptide P5007 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGCCCGGGCCCGCACCAGTTTCCGCTTATTCATATTAACACGACGTACCGGACCTTTTAA SCPGPHQFPLIHINTTYRTF* -1.162 0.031643 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26658 CLHFLS 6 SLAY-screened peptide P5008 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTTGCACTTTCTCTCCTAGAACTTTACGGATAGTCAGTAGGGTCCGACGCGTAATGGGTAA CLHFLS*NFTDSQ*GPTRNG* -1.162 0.005521 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26659 YDDCDDITDRREKFYLIFIH 20 SLAY-screened peptide P5009 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATGATGATTGTGACGATATCACCGATCGGCGCGAGAAGTTTTATCTTATTTTTATCCATTAA YDDCDDITDRREKFYLIFIH* -1.162 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26660 GSNDYKHSSSSISRMTCTLD 20 SLAY-screened peptide P5010 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTCGAACGACTATAAGCACTCTTCGTCCTCCATCAGTAGGATGACTTGTACTCTCGATTAA GSNDYKHSSSSISRMTCTLD* -1.162 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26661 RPPAPLCPWLRHPHSGPITV 20 SLAY-screened peptide P5011 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCGCCGGCGCCTCTCTGCCCCTGGCTCCGGCATCCCCACTCTGGCCCTATTACTGTTTAA RPPAPLCPWLRHPHSGPITV* -1.162 0.004672 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26662 YRYLPLYFWGCPLYHTSTYV 20 SLAY-screened peptide P5012 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATAGGTATCTCCCGCTTTACTTTTGGGGTTGTCCGCTGTATCACACCAGTACCTACGTGTAA YRYLPLYFWGCPLYHTSTYV* -1.161 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26663 TALCVHLTSHTTFRTPYNLP 20 SLAY-screened peptide P5013 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCGTTGTGCGTGCACCTCACGTCGCACACGACCTTCCGCACCCCGTACAATCTTCCTTAA TALCVHLTSHTTFRTPYNLP* -1.161 0.041654 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26664 EGLWSFQCYPRFIFSLHDYNY 21 SLAY-screened peptide P5014 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGGGCTCTGGAGCTTTCAGTGTTACCCCAGGTTCATCTTTTCCTTGCACGATTATAACTAC EGLWSFQCYPRFIFSLHDYNY -1.161 0.017235 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26665 QCQYCHTNTENHQSAYR 17 SLAY-screened peptide P5015 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTGTCAGTACTGCCATACTAATACCGAGAATCACCAGTCTGCGTATAGGTAGTAGTTGTAA QCQYCHTNTENHQSAYR**L* -1.161 0.013663 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26666 YPLRPRIYSCRFCIFLRI 18 SLAY-screened peptide P5016 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCCTCTTCGTCCCCGGATTTATTCTTGTCGTTTCTGTATCTTTTTGAGGATTTAGCATTAA YPLRPRIYSCRFCIFLRI*H* -1.161 0.000288 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26667 PFQPDLNNYQKIFFCNLIAP 20 SLAY-screened peptide P5017 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTCCAGCCCGACCTGAACAATTATCAGAAGATTTTCTTTTGCAACTTGATTGCCCCTTAA PFQPDLNNYQKIFFCNLIAP* -1.161 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26668 HHKC 4 SLAY-screened peptide P5018 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCATAAGTGTTAGGTGTCCTCTACGACGAACTACTCCAACGTTAATAACGTCATTCAGTAA HHKC*VSSTTNYSNVNNVIQ* -1.16 0.019447 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26669 SYCCCSFPRNNDFSTADELI 20 SLAY-screened peptide P5019 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTACTGCTGTTGCAGCTTTCCCCGCAATAACGACTTCAGCACCGCCGACGAGCTCATCTAA SYCCCSFPRNNDFSTADELI* -1.16 0.004704 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26670 NTNY 4 SLAY-screened peptide P5020 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACTAACTATTAACCTGCCTGTTACACGTGGCATACCAATGATGGCCCCTCCTGGGATTAA NTNY*PACYTWHTNDGPSWD* -1.16 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26671 GRRIQPHSLSPCTATASV 18 SLAY-screened peptide P5021 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCGTCGCATCCAGCCGCATAGCCTGAGTCCGTGTACGGCTACTGCTTCCGTGTAACTGAGT GRRIQPHSLSPCTATASV*LS -1.16 0.000126 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26672 EAQARKRPRPLWRFPRVGDE 20 SLAY-screened peptide P5022 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGCTCAGGCTCGCAAGAGGCCCCGTCCCCTTTGGCGTTTCCCGCGCGTTGGCGACGAGTAA EAQARKRPRPLWRFPRVGDE* -1.16 0.000946 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26673 NGNFKRYRNICGNLSINHLC 20 SLAY-screened peptide P5023 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGGCAATTTTAAGAGGTACCGTAATATCTGCGGCAACTTGTCCATCAATCACTTGTGTTAA NGNFKRYRNICGNLSINHLC* -1.16 0.000021 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26674 LGGQLCTTSIHVSYNLCCDM 20 SLAY-screened peptide P5024 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGGTGGGCAGCTTTGCACTACCTCCATTCATGTGTCTTATAACCTTTGTTGCGATATGTAA LGGQLCTTSIHVSYNLCCDM* -1.16 0.007633 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26675 LCARLRFLCLTLGTLHRKAV 20 SLAY-screened peptide P5025 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGCGCGCGCCTTCGGTTCCTTTGTCTCACTCTTGGTACTCTTCACAGGAAGGCTGTGTAA LCARLRFLCLTLGTLHRKAV* -1.159 0.000517 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26676 VKNFFRMTRRRCSSIVSSLLN 21 SLAY-screened peptide P5026 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTAAGAATTTTTTTCGAATGACTAGAAGGCGATGTTCAAGTATAGTCTCATCTCTTCTTAAC VKNFFRMTRRRCSSIVSSLLN -1.159 0.006193 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26677 LFNILLYNTQTLPRSHVP 18 SLAY-screened peptide P5027 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTTAATATCTTGCTTTATAATACGCAGACTCTTCCCCGTTCCCATGTTCCTTAGCACTAA LFNILLYNTQTLPRSHVP*H* -1.159 0.000013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26678 CWYPTLPSSLYQYSLQVAMS 20 SLAY-screened peptide P5028 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTGGTATCCCACGCTGCCCTCGAGCCTTTACCAGTACAGCCTTCAGGTCGCCATGTCCTAA CWYPTLPSSLYQYSLQVAMS* -1.159 0.003555 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26679 HTTNRYHYICLWFSCFTFNV 20 SLAY-screened peptide P5029 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACTACCAATCGGTATCACTACATTTGCCTTTGGTTTTCCTGTTTTACGTTCAATGTGTAA HTTNRYHYICLWFSCFTFNV* -1.159 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26680 HIPNSQPAFRTLRTYTLYTW 20 SLAY-screened peptide P5030 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATCCCGAATAGCCAGCCCGCCTTTAGGACGCTCCGTACGTACACGCTCTATACCTGGTAA HIPNSQPAFRTLRTYTLYTW* -1.159 0.000291 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26681 SPVMSKYAIPSYRPMFPPIK 20 SLAY-screened peptide P5031 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCTGTTATGTCTAAGTACGCTATCCCCTCGTACCGTCCCATGTTCCCTCCGATCAAGTAA SPVMSKYAIPSYRPMFPPIK* -1.159 0.000133 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26682 SAALPLIDYVYRAYIENASR 20 SLAY-screened peptide P5032 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCTGCCCTGCCTCTTATTGACTATGTGTATCGCGCGTACATCGAGAACGCCAGTCGCTAA SAALPLIDYVYRAYIENASR* -1.159 0.02708 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26683 VYSTGFGSSESCSRPHSQYY 20 SLAY-screened peptide P5033 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTACAGTACGGGGTTCGGCTCTAGTGAGAGTTGCAGCCGTCCTCATTCCCAGTATTATTAA VYSTGFGSSESCSRPHSQYY* -1.158 0.00011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26684 SIHNHPCSTRANP 13 SLAY-screened peptide P5034 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTATCCATAACCATCCGTGTTCTACCCGCGCTAATCCCTAGGATTCTTTTCATGAGCGGTAA SIHNHPCSTRANP*DSFHER* -1.158 0.043984 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26685 CHLAPST 7 SLAY-screened peptide P5035 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACTTGGCCCCTAGCACTTAGGGTTAGCCTAACCGTACCTTTATTACCTCTAGCTCCTAA CHLAPST*G*PNRTFITSSS* -1.158 0.034505 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26686 LFSCLTYYM 9 SLAY-screened peptide P5036 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGTTTAGTTGTCTCACGTACTACATGTAGTCGACCTATTTCCAGTACTCTGTGCACCGTTAA LFSCLTYYM*STYFQYSVHR* -1.157 0.029924 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26687 LPVRSHNYGNYMSN 14 SLAY-screened peptide P5037 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCTGTTAGGTCGCATAATTACGGCAACTACATGTCTAACTAGAGTTTGGTTTACCATAAC LPVRSHNYGNYMSN*SLVYHN -1.157 0.000449 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26688 TLYPITHCYHHCHPLCYTDH 20 SLAY-screened peptide P5038 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTTGTACCCTATTACTCATTGTTACCACCACTGTCACCCGTTGTGCTACACGGACCACTAA TLYPITHCYHHCHPLCYTDH* -1.157 0.016332 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26689 TLPPSPSPTNPGADLLPASS 20 SLAY-screened peptide P5039 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTTCCGCCTTCCCCGTCGCCGACCAACCCGGGCGCGGACCTTCTTCCCGCGTCGAGTTAA TLPPSPSPTNPGADLLPASS* -1.157 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26690 LCGLRPTPHVLIHTPTYLTL 20 SLAY-screened peptide P5040 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTGTGGCCTCCGGCCGACGCCCCACGTGCTGATCCATACTCCCACCTATTTGACTTTGTAA LCGLRPTPHVLIHTPTYLTL* -1.157 0.006484 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26691 FPPLRLDTNYPWCHPSTLYW 20 SLAY-screened peptide P5041 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCTCCCCTGAGGTTGGACACGAATTATCCCTGGTGTCATCCCTCTACCCTCTATTGGTAA FPPLRLDTNYPWCHPSTLYW* -1.157 0.001469 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26692 SFCNALYPRPFARHDCMCHP 20 SLAY-screened peptide P5042 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTTCTGCAATGCTCTCTACCCTCGCCCTTTTGCGCGCCACGACTGTATGTGTCACCCCTAA SFCNALYPRPFARHDCMCHP* -1.156 0.002208 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26693 QGHSHM 6 SLAY-screened peptide P5043 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGGTCACAGCCACATGTAGGGGACGCGCGCCATCCACAACCTCCGCCTGGGTTAGGCTTAA QGHSHM*GTRAIHNLRLG*A* -1.156 0.000019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26694 YLPALCSPFHNRSQHFHCCL 20 SLAY-screened peptide P5044 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATCTCCCTGCGTTGTGCAGCCCCTTTCACAATCGCTCGCAGCATTTTCATTGTTGTCTTTAA YLPALCSPFHNRSQHFHCCL* -1.156 0.008382 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26695 PLLLWYFCFLLSAETTYNKD 20 SLAY-screened peptide P5045 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTGCTCTTGTGGTACTTTTGCTTCCTGCTTAGTGCGGAGACCACCTACAATAAGGACTAA PLLLWYFCFLLSAETTYNKD* -1.155 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26696 LNAPTDDITSPRNHYGLNDY 20 SLAY-screened peptide P5046 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAATGCGCCGACTGACGACATCACCTCTCCCCGGAACCACTATGGTCTTAACGATTATTAA LNAPTDDITSPRNHYGLNDY* -1.155 0.037769 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26697 PLMYLVSYVLNLLLSTSSGR 20 SLAY-screened peptide P5047 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTGATGTATCTGGTCAGCTATGTGCTCAATCTTCTTTTGTCCACCTCGAGTGGGCGTTAA PLMYLVSYVLNLLLSTSSGR* -1.155 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26698 TTRTRCSTPVDPTLHLNS 18 SLAY-screened peptide P5048 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACGCGTACTCGCTGCAGCACTCCTGTGGACCCCACCTTGCATCTTAATAGTTAGTTTTAA TTRTRCSTPVDPTLHLNS*F* -1.155 0.006545 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26699 VADSVHPSFAPNHATTFSAR 20 SLAY-screened peptide P5049 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGGCTGACTCCGTGCATCCTAGTTTTGCTCCTAACCACGCCACGACTTTCTCGGCCCGCTAA VADSVHPSFAPNHATTFSAR* -1.154 0.000109 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26700 PWRCYPHQFPTARRPPLRIV 20 SLAY-screened peptide P5050 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGGAGGTGCTATCCTCACCAGTTTCCCACCGCCCGGAGGCCGCCCCTCCGCATCGTCTAA PWRCYPHQFPTARRPPLRIV* -1.154 0.000208 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26701 PPHCHPTRTCKTCVPPRDNR 20 SLAY-screened peptide P5051 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCCACTGTCACCCTACTCGTACGTGCAAGACGTGCGTCCCGCCCCGCGACAACCGTTAA PPHCHPTRTCKTCVPPRDNR* -1.154 0.00004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26702 SRRPYANTLNSTFLTLLQEH 20 SLAY-screened peptide P5052 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGTCGCCCGTACGCCAACACGTTGAACTCCACTTTTCTTACTCTCCTCCAGGAGCACTAA SRRPYANTLNSTFLTLLQEH* -1.154 0.000236 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26703 PAGHSPPPCYLFANADMRVI 20 SLAY-screened peptide P5053 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCCGGTCATTCGCCGCCGCCTTGCTATTTGTTTGCTAACGCTGATATGAGGGTGATTTAA PAGHSPPPCYLFANADMRVI* -1.154 0.01791 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26704 LHESCTLGRLNHEGYNIIVV 20 SLAY-screened peptide P5054 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCACGAGTCCTGCACTCTCGGGCGCTTGAACCATGAGGGCTACAATATTATTGTCGTTTAA LHESCTLGRLNHEGYNIIVV* -1.154 0.018752 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26705 ASLLIPSGSGNRSHSSFYDM 20 SLAY-screened peptide P5055 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAGCCTTCTTATTCCTTCGGGGTCCGGCAATCGGAGTCACTCCAGTTTCTACGATATGTAA ASLLIPSGSGNRSHSSFYDM* -1.154 0.003355 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26706 NRPFSLCPLFYMSPVSPINW 20 SLAY-screened peptide P5056 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCGCCCGTTTTCCCTGTGTCCGCTTTTCTACATGAGTCCCGTGAGCCCCATTAATTGGTAA NRPFSLCPLFYMSPVSPINW* -1.153 0.000284 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26707 TTDVEVCTSPSFASVSSHCH 20 SLAY-screened peptide P5057 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACGGATGTCGAGGTTTGCACTTCCCCGTCTTTTGCCTCGGTCTCGAGCCACTGCCATTAA TTDVEVCTSPSFASVSSHCH* -1.153 0.004701 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26708 LSVTGLNGIMTGKINPPLCL 20 SLAY-screened peptide P5058 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCTGTTACCGGTCTCAACGGTATCATGACTGGCAAGATCAACCCTCCCCTCTGCCTCTAA LSVTGLNGIMTGKINPPLCL* -1.153 0.001483 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26709 CRIYPIGA 8 SLAY-screened peptide P5059 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGTATTTATCCCATTGGTGCTTAGCGCGTCGCCTCTCAGACCATCGGTAAGATGTACTAA CRIYPIGA*RVASQTIGKMY* -1.153 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26710 IPISCWAPCYPASHDWECSL 20 SLAY-screened peptide P5060 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCCCATCTCCTGTTGGGCTCCGTGCTATCCTGCGTCTCACGACTGGGAGTGCTCTCTCTAA IPISCWAPCYPASHDWECSL* -1.153 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26711 FYCTALPYATSRTVGNDNAI 20 SLAY-screened peptide P5061 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTATTGTACGGCTCTGCCTTATGCTACTTCTCGTACGGTGGGTAATGACAATGCCATTTAA FYCTALPYATSRTVGNDNAI* -1.153 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26712 DP 2 SLAY-screened peptide P5062 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCCTAGCATCCTGGCACTATTCCTGAGCAGCTCCCGCTGCCCCACCGCTGGGGCTTGTAA DP*HPGTIPEQLPLPHRWGL* -1.152 0.000033 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26713 CFGIPCCASPRGSHPLAIYV 20 SLAY-screened peptide P5063 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTTCGGGATCCCGTGCTGCGCTTCGCCCCGCGGTTCTCACCCGCTGGCCATTTACGTTTAA CFGIPCCASPRGSHPLAIYV* -1.152 0.0002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26714 TALLLTSLATILRELRCHGH 20 SLAY-screened peptide P5064 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCGCTTTTGTTGACGAGTCTGGCGACGATTCTCCGTGAGCTCAGGTGTCACGGGCATTAA TALLLTSLATILRELRCHGH* -1.151 0.022762 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26715 PYNSMRHCSFHADNHSQRWL 20 SLAY-screened peptide P5065 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATAACTCGATGCGCCACTGCTCCTTTCATGCTGACAATCATAGCCAGCGTTGGTTGTAA PYNSMRHCSFHADNHSQRWL* -1.151 0.001107 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26716 CTGPHSHSLVYIGACTPICM 20 SLAY-screened peptide P5066 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACGGGCCCTCATTCCCATAGCCTCGTGTACATTGGTGCCTGTACGCCGATTTGTATGTAA CTGPHSHSLVYIGACTPICM* -1.151 0.000636 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26717 SNREGVGWSCLPVSPL 16 SLAY-screened peptide P5067 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTAATCGCGAAGGGGTAGGGTGGTCATGCCTGCCCGTTTCACCTTTGTAACTATAACTAACT SNREGVGWSCLPVSPL*L*LT -1.151 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26718 PRRVFPHLQDNQDYAKNAIL 20 SLAY-screened peptide P5068 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAGGAGGGTCTTCCCCCATTTGCAGGATAATCAGGACTATGCTAAGAATGCTATTTTGTAA PRRVFPHLQDNQDYAKNAIL* -1.151 0.001416 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26719 THHYSYQGLSANI 13 SLAY-screened peptide P5069 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCACCACTACAGTTATCAGGGGTTGTCCGCTAACATCTAGCTCATTGGTTCCTAGTACTAA THHYSYQGLSANI*LIGS*Y* -1.151 0.000677 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26720 SPDLDPFQTPTILIIFPGTR 20 SLAY-screened peptide P5070 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCCCGATCTTGACCCTTTTCAGACTCCGACGATCCTGATTATTTTTCCCGGGACTAGGTAA SPDLDPFQTPTILIIFPGTR* -1.151 0.008652 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26721 DNSFQHCELVPSCYKCPPQF 20 SLAY-screened peptide P5071 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATAACTCCTTTCAGCATTGCGAGCTTGTGCCTAGCTGCTATAAGTGTCCCCCTCAGTTCTAA DNSFQHCELVPSCYKCPPQF* -1.151 0.047156 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26722 SAPCWWRYMAAPHDHHTYNP 20 SLAY-screened peptide P5072 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGCTCCGTGTTGGTGGCGTTACATGGCGGCCCCTCACGACCACCATACTTACAATCCTTAA SAPCWWRYMAAPHDHHTYNP* -1.15 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26723 PVMA 4 SLAY-screened peptide P5073 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTGATGGCTTAGCTGAAGGACCACCCGAACGTGACCCACAACATCTTTAATGTGCCGTAA PVMA*LKDHPNVTHNIFNVP* -1.15 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26724 YWTPLPVLFRCLLSKLKNCI 20 SLAY-screened peptide P5074 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTGGACCCCCTTGCCCGTGCTCTTCCGTTGTTTGCTGTCGAAGCTGAAGAACTGTATTTAA YWTPLPVLFRCLLSKLKNCI* -1.15 0.000275 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26725 HAPNNTIEAYCLLPYPDTLT 20 SLAY-screened peptide P5075 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCTCCTAACAATACCATTGAGGCGTATTGCCTCCTTCCCTATCCTGATACGCTCACGTAA HAPNNTIEAYCLLPYPDTLT* -1.15 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26726 LFLNLLCPKKILPLCIALTTN 21 SLAY-screened peptide P5076 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTCCTCAACCTTCTGTGTCCTAAGAAGATCCTACCTCTATGCATCGCACTTACAACTAAC LFLNLLCPKKILPLCIALTTN -1.15 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26727 AACPGLVRVHPDLVLTYHRR 20 SLAY-screened peptide P5077 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCCTGTCCGGGCCTTGTTCGCGTCCACCCCGATCTGGTCCTGACTTACCATCGCAGGTAA AACPGLVRVHPDLVLTYHRR* -1.149 0.004447 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26728 NCWSNISTALTTLWKRFVAI 20 SLAY-screened peptide P5078 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGCTGGAGTAACATTAGCACCGCCTTGACTACTCTTTGGAAGCGGTTTGTTGCGATCTAA NCWSNISTALTTLWKRFVAI* -1.149 0.000045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26729 SRYMFCHPPTWTSVVRNYSI 20 SLAY-screened peptide P5079 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGTTATATGTTTTGCCACCCTCCCACGTGGACCTCTGTGGTTCGTAACTATTCCATCTAA SRYMFCHPPTWTSVVRNYSI* -1.148 0.033533 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26730 SLAYIINRALRHIVTSSCTL 20 SLAY-screened peptide P5080 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTTGGCGTACATCATTAACCGCGCTCTTCGCCATATCGTTACTTCTAGTTGTACGCTCTAA SLAYIINRALRHIVTSSCTL* -1.148 0.00237 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26731 TIPGRPVCLVVKSNSYF 17 SLAY-screened peptide P5081 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTATCCCCGGGCGCCCTGTCTGTCTTGTGGTGAAGTCTAATTCCTATTTCTAGGCTACTTAA TIPGRPVCLVVKSNSYF*AT* -1.148 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26732 PASISI 6 SLAY-screened peptide P5082 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGCGTCTATCTCCATCTAGCACAATAATGACAATGCGACCCCCTTGGGCACGTTTGTCTAA PASISI*HNNDNATPLGTFV* -1.148 0.00613 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26733 RRHRGLCMLCMPIIASMI 18 SLAY-screened peptide P5083 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGGCATCGGGGTCTGTGTATGCTCTGCATGCCGATCATCGCGTCCATGATTTAGTGTTAA RRHRGLCMLCMPIIASMI*C* -1.148 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26734 RHLTSTG 7 SLAY-screened peptide P5084 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCACCTTACGTCGACCGGCTAGCTTCGCAACATGTTTACCAACCACATGTACAGGACCTAA RHLTSTG*LRNMFTNHMYRT* -1.147 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26735 LRPIPILSVNLLHDAVPTHS 20 SLAY-screened peptide P5085 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCGGCCGATTCCGATTCTTTCGGTCAACCTCCTGCATGATGCTGTCCCCACCCATTCTTAA LRPIPILSVNLLHDAVPTHS* -1.147 0.01901 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26736 WYPLPYNYYHCNHTHLHHFN 20 SLAY-screened peptide P5086 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTATCCCCTCCCTTACAACTATTACCACTGTAACCACACGCACCTGCATCATTTCAATTAA WYPLPYNYYHCNHTHLHHFN* -1.147 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26737 CWPRPSFGFYRYPDWLLCRA 20 SLAY-screened peptide P5087 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTGGCCTCGTCCTTCGTTCGGGTTCTATCGTTACCCCGATTGGCTGTTGTGCCGTGCCTAA CWPRPSFGFYRYPDWLLCRA* -1.147 0.001059 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26738 NPTITNDQPNSHGVRGAFSS 20 SLAY-screened peptide P5088 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCCTACGATTACGAACGATCAGCCGAACAGCCATGGTGTCCGCGGGGCCTTCAGCAGTTAA NPTITNDQPNSHGVRGAFSS* -1.147 0.001525 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26739 LDLTDYTVSTCMLNGSR 17 SLAY-screened peptide P5089 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGACCTGACGGATTACACCGTGTCCACTTGTATGCTTAATGGGAGCCGTTAGACTGATTAA LDLTDYTVSTCMLNGSR*TD* -1.147 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26740 GNHGSSGYTKHYTVYSVFVI 20 SLAY-screened peptide P5090 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTAACCACGGCTCTTCGGGTTATACCAAGCACTACACCGTTTACAGCGTGTTTGTGATTTAA GNHGSSGYTKHYTVYSVFVI* -1.146 0.000402 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26741 PGFLLSELKRVVRGIIGIY 19 SLAY-screened peptide P5091 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGCTTCCTTCTTAGCGAGCTCAAGAGGGTTGTTCGTGGCATTATTGGTATCTACTAGTAA PGFLLSELKRVVRGIIGIY** -1.146 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26742 KLY 3 SLAY-screened peptide P5092 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCTGTATTAGTGTCTTTTCTCCAACTCCCCTAAGTTCTTGTGGCGTGCTTGTTTTTAGTAA KLY*CLFSNSPKFLWRACF** -1.146 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26743 HEQFDVSRPDILLCTRHAAN 20 SLAY-screened peptide P5093 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGAGCAGTTTGATGTGTCGCGTCCCGATATTTTGCTTTGTACCAGGCACGCTGCTAACTAA HEQFDVSRPDILLCTRHAAN* -1.146 0.028802 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26744 VPTYRDRDHSYFSYCLI 17 SLAY-screened peptide P5094 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCCGACCTACCGTGACCGTGACCATTCGTACTTTTCGTACTGCCTGATCTAGATGAGTTAA VPTYRDRDHSYFSYCLI*MS* -1.145 0.026108 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26745 VDANRHLISTVARSTVSSRVN 21 SLAY-screened peptide P5095 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGACGCCAACAGGCATCTCATATCGACGGTTGCGCGATCGACTGTTTCGTCAAGAGTTAAC VDANRHLISTVARSTVSSRVN -1.145 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26746 PLKSKMLCVVLL 12 SLAY-screened peptide P5096 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTGAAGAGTAAGATGCTTTGCGTGGTGCTCTTGTAGATGTTCCGGGCCGAGACGCATTAA PLKSKMLCVVLL*MFRAETH* -1.145 0.029682 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26747 PLLHCYPLYGAHTCHCYHTI 20 SLAY-screened peptide P5097 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCTCTTGCACTGTTACCCTTTGTACGGGGCCCACACCTGCCATTGCTACCATACCATTTAA PLLHCYPLYGAHTCHCYHTI* -1.145 0.000321 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26748 LALILSLF 8 SLAY-screened peptide P5098 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGCGCTTATTTTGAGTCTCTTTTAGACCCACGCTGATTTTGATAGTGCGTACATGGTGTAA LALILSLF*THADFDSAYMV* -1.144 0.023045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26749 WVSSLMFNIYDGSFCHPSSC 20 SLAY-screened peptide P5099 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGGTTTCGAGTCTCATGTTTAATATCTACGATGGTTCCTTCTGCCATCCCAGCAGCTGTTAA WVSSLMFNIYDGSFCHPSSC* -1.144 0.000049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26750 PCDYHFILIPQNPGDAPYLIY 21 SLAY-screened peptide P5100 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTGACTATCATTTTATTCTTATCCCCCAGAATCCTGGCGACGCCCCTTACCTTATTTAC PCDYHFILIPQNPGDAPYLIY -1.144 0.016741 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26751 HPSPNHVHKFEGPATTLGVN 20 SLAY-screened peptide P5101 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTTCTCCCAATCACGTCCATAAGTTTGAGGGTCCTGCTACGACGCTTGGCGTTAATTAA HPSPNHVHKFEGPATTLGVN* -1.144 0.007873 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26752 ITTQLILTFELNIVTIIIHS 20 SLAY-screened peptide P5102 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCACTACCCAGCTCATCTTGACCTTCGAGCTTAATATCGTTACGATCATCATTCATTCTTAA ITTQLILTFELNIVTIIIHS* -1.143 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26753 QVTNDSGSYYNSNFGVSLDQ 20 SLAY-screened peptide P5103 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGTCACGAATGACTCCGGTTCGTACTACAATTCTAACTTTGGTGTTTCCCTTGACCAGTAA QVTNDSGSYYNSNFGVSLDQ* -1.143 0.002456 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26754 PSLTARTLYFMEPDLIDSNA 20 SLAY-screened peptide P5104 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAGCCTGACCGCTCGTACTCTTTATTTTATGGAGCCTGATTTGATCGACTCCAACGCGTAA PSLTARTLYFMEPDLIDSNA* -1.143 0.001668 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26755 RSRDEYVSGFSSHLIFYKNQ 20 SLAY-screened peptide P5105 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCGCGGGACGAGTACGTTAGTGGCTTTAGTTCGCATCTGATCTTCTATAAGAATCAGTAA RSRDEYVSGFSSHLIFYKNQ* -1.143 0.033865 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26756 NRKYKVSNRNHCNCHTTNHK 20 SLAY-screened peptide P5106 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCGTAAGTACAAGGTGTCCAATCGCAATCATTGCAATTGCCACACCACTAACCATAAGTAA NRKYKVSNRNHCNCHTTNHK* -1.143 0.006409 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26757 GAINRTCASCHWLPCLIGYI 20 SLAY-screened peptide P5107 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGCGATCAATCGGACCTGTGCCAGCTGTCATTGGTTGCCTTGTCTTATCGGGTACATCTAA GAINRTCASCHWLPCLIGYI* -1.143 0.001757 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26758 LTVLSSRTCGTILSHYCT 18 SLAY-screened peptide P5108 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGACGGTGCTGTCTTCGCGCACGTGCGGCACTATTTTGTCGCATTATTGCACCTAGCTTTAA LTVLSSRTCGTILSHYCT*L* -1.143 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26759 PYSGHYFSIHAGASTHE 17 SLAY-screened peptide P5109 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTACTCGGGTCATTACTTCTCGATTCATGCCGGTGCGTCTACGCACGAGTAGTGTATTTAA PYSGHYFSIHAGASTHE*CI* -1.143 0.003386 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26760 HWLSTNRSPYAHTCIPVYTW 20 SLAY-screened peptide P5110 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGGTTGTCGACTAATCGGTCCCCGTATGCCCATACTTGCATTCCCGTTTACACCTGGTAA HWLSTNRSPYAHTCIPVYTW* -1.142 0.020743 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26761 ETSGAVRYCTPFISPYWLCC 20 SLAY-screened peptide P5111 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGACCAGTGGTGCCGTCCGCTACTGTACTCCGTTTATCTCGCCCTATTGGTTGTGTTGCTAA ETSGAVRYCTPFISPYWLCC* -1.142 0.000038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26762 CHDS 4 SLAY-screened peptide P5112 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCACGACTCTTAGTTGATGGGGAACTATACGGTTACGTGTCCGTTTCTTCTTGGGTTTTAA CHDS*LMGNYTVTCPFLLGF* -1.142 0.000077 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26763 VCSCPILPINTRYGRRLLLS 20 SLAY-screened peptide P5113 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTGCTCCTGCCCCATCCTCCCTATTAACACGCGCTATGGCCGCCGCTTGCTTCTGTCGTAA VCSCPILPINTRYGRRLLLS* -1.142 0.004696 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26764 TPRFYPLIFSYI 12 SLAY-screened peptide P5114 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCTCGCTTTTATCCCCTCATTTTTTCTTACATTTAGGTCTTTAATACCTGTACGTTCTAA TPRFYPLIFSYI*VFNTCTF* -1.142 0.042007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26765 CAPYTKPHKTSMRPLDTFKT 20 SLAY-screened peptide P5115 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGCGCCTTACACGAAGCCCCACAAGACTAGTATGCGGCCCCTTGACACCTTTAAGACTTAA CAPYTKPHKTSMRPLDTFKT* -1.142 0.044403 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26766 SERTCPNVTHTVLPVPTSTA 20 SLAY-screened peptide P5116 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGAGCGCACTTGCCCTAATGTCACTCATACTGTTCTGCCCGTCCCCACCTCCACTGCTTAA SERTCPNVTHTVLPVPTSTA* -1.142 0.023248 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26767 LPRGPPGRCNPWDGDWCHGL 20 SLAY-screened peptide P5117 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCCCCGCGGGCCGCCGGGTCGTTGCAACCCCTGGGATGGCGATTGGTGCCACGGTCTTTAA LPRGPPGRCNPWDGDWCHGL* -1.141 0.003336 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26768 CTSLYTYL 8 SLAY-screened peptide P5118 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACCTCTCTTTACACGTATCTCTAGCCGTTCATCCGTCTTTTGAATTGCTGCAGTGACTAA CTSLYTYL*PFIRLLNCCSD* -1.141 0.023156 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26769 SS 2 SLAY-screened peptide P5119 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTCCTAGCACCTCCCCATGCCTCGTACCGCGATGCACGCCCACCCGGACACGCTCACCTAA SS*HLPMPRTAMHAHPDTLT* -1.141 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26770 PFNHADDAEPHFLHTIWHYM 20 SLAY-screened peptide P5120 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTCAACCATGCTGACGACGCGGAGCCTCACTTTCTCCACACCATTTGGCATTATATGTAA PFNHADDAEPHFLHTIWHYM* -1.14 0.014675 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26771 HSNDLFSKDTSCYHPCDRPY 20 SLAY-screened peptide P5121 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCGAACGATCTTTTTAGTAAGGATACCTCCTGCTATCACCCTTGTGATCGGCCTTACTAA HSNDLFSKDTSCYHPCDRPY* -1.14 0.035197 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26772 SGMCDNYDLPIRPPWFRRRRN 21 SLAY-screened peptide P5122 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGGCATGTGTGATAATTATGACCTCCCCATCAGGCCCCCGTGGTTCAGGCGGCGACGTAAC SGMCDNYDLPIRPPWFRRRRN -1.14 0.024085 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26773 LNQPTTTPSSG 11 SLAY-screened peptide P5123 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAACCAACCAACTACGACCCCTTCTAGCGGGTGATCCTTCACAACAACAATCACGCGTAAC LNQPTTTPSSG*SFTTTITRN -1.139 0.000627 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26774 FACPDFIRKCRVCMDNFRTA 20 SLAY-screened peptide P5124 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGCCTGTCCGGACTTTATCCGTAAGTGCCGTGTTTGTATGGACAACTTTCGTACCGCTTAA FACPDFIRKCRVCMDNFRTA* -1.139 0.048457 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26775 NPGCYFALLHSDNILATHIS 20 SLAY-screened peptide P5125 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCCCGGTTGCTATTTTGCGTTGCTGCACAGCGATAATATTTTGGCGACCCATATTTCCTAA NPGCYFALLHSDNILATHIS* -1.139 0.007475 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26776 CVYGDSQHLSVSDPDPFTLI 20 SLAY-screened peptide P5126 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTCTACGGCGATTCCCAGCACCTGTCGGTCTCGGACCCCGACCCCTTCACTTTGATTTAA CVYGDSQHLSVSDPDPFTLI* -1.139 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26777 VFLSLLMIAKYILLNAINHK 20 SLAY-screened peptide P5127 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTTCCTGTCCCTGCTTATGATCGCGAAGTACATTCTGTTGAATGCGATCAATCACAAGTAA VFLSLLMIAKYILLNAINHK* -1.139 0.004724 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26778 TSVHH 5 SLAY-screened peptide P5128 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTCGGTTCATCACTAGGAGAAGGATCGGGTCAATTAGACTATCCTGTTGTACTTTTTGTAA TSVHH*EKDRVN*TILLYFL* -1.139 0.002854 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26779 CNFGLHGVACFYFTDLLFTP 20 SLAY-screened peptide P5129 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCAACTTCGGTCTGCACGGTGTGGCGTGTTTTTATTTCACGGATCTGCTCTTCACTCCTTAA CNFGLHGVACFYFTDLLFTP* -1.139 0.006724 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26780 VAPTFSSVRLPLCFILCLTL 20 SLAY-screened peptide P5130 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGCTCCTACCTTTTCTTCCGTGCGTCTCCCTCTCTGTTTCATTCTCTGCTTGACTCTGTAA VAPTFSSVRLPLCFILCLTL* -1.139 0.010685 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26781 HLLETTALAYL 11 SLAY-screened peptide P5131 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTTCTCGAGACGACCGCTCTTGCCTATCTGTAGAGTACGCTCACCGCGTCTATGCCGTAA HLLETTALAYL*STLTASMP* -1.138 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26782 PQPASGCPTNSGAARPNSC 19 SLAY-screened peptide P5132 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCAGCCGGCTAGCGGCTGCCCTACTAATTCGGGGGCCGCCCGCCCTAACTCTTGCTAACTG PQPASGCPTNSGAARPNSC*L -1.138 0.011149 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26783 PPRHCARRDYDFDFPYLWTY 20 SLAY-screened peptide P5133 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCCGTCACTGTGCCCGCCGCGACTACGACTTCGACTTCCCTTATTTGTGGACTTACTAA PPRHCARRDYDFDFPYLWTY* -1.138 0.001091 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26784 PSDDQPPNSLTLTCAIPRR 19 SLAY-screened peptide P5134 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGTGATGACCAGCCTCCGAATTCCCTTACGTTGACGTGCGCGATCCCCCGTCGGTAGTAA PSDDQPPNSLTLTCAIPRR** -1.138 0.000091 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26785 HCRTWTNAVLASQHNVTVHS 20 SLAY-screened peptide P5135 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGCCGTACGTGGACGAACGCGGTTTTGGCCTCCCAGCATAATGTCACCGTGCACTCTTAA HCRTWTNAVLASQHNVTVHS* -1.138 0.001689 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26786 PCPRSYNLATPLSYLAQRLQ 20 SLAY-screened peptide P5136 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGCCCCCGCTCGTACAACCTGGCGACCCCGCTCTCCTACCTTGCGCAGCGTCTCCAGTAA PCPRSYNLATPLSYLAQRLQ* -1.138 0.010744 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26787 TFKAEMILRHCYDYDNRHSSN 21 SLAY-screened peptide P5137 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTTCAAGGCCGAGATGATCCTTAGGCACTGCTATGATTATGACAACCGCCACTCTTCTAAC TFKAEMILRHCYDYDNRHSSN -1.138 0.035271 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26788 SILAKVYSLLGQHKTCNRDG 20 SLAY-screened peptide P5138 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTATTCTGGCTAAGGTTTACAGTCTGCTCGGGCAGCACAAGACTTGCAACAGGGATGGCTAA SILAKVYSLLGQHKTCNRDG* -1.137 0.000083 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26789 RESPRPGCWCYIPAPELCLL 20 SLAY-screened peptide P5139 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGAGTCGCCGCGGCCTGGGTGCTGGTGTTATATTCCGGCCCCTGAGCTTTGTTTGCTTTAA RESPRPGCWCYIPAPELCLL* -1.137 0.006368 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26790 EKGKERGYPLKPYETRLLCP 20 SLAY-screened peptide P5140 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAAGGGCAAGGAGCGCGGTTATCCGCTCAAGCCCTACGAGACGAGGTTGCTTTGCCCCTAA EKGKERGYPLKPYETRLLCP* -1.137 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26791 YCPPSSTNLNDMHLASTAMW 20 SLAY-screened peptide P5141 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGCCCTCCCTCCTCGACCAACCTTAACGACATGCATCTTGCTAGTACTGCTATGTGGTAA YCPPSSTNLNDMHLASTAMW* -1.137 0.026136 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26792 SPTCTSLPDDLGTMLIINRA 20 SLAY-screened peptide P5142 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCCTACCTGCACCTCGCTGCCGGATGATCTGGGTACCATGTTGATCATCAATCGCGCTTAA SPTCTSLPDDLGTMLIINRA* -1.137 0.002355 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26793 HCPRWHPPHYYTREDLTLLR 20 SLAY-screened peptide P5143 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTGCCCTCGGTGGCACCCCCCTCACTACTACACCAGGGAGGATCTGACCCTTCTCAGGTAA HCPRWHPPHYYTREDLTLLR* -1.136 0.000056 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26794 GAFSTPLSVDSATIPCDRY 19 SLAY-screened peptide P5144 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGCCTTCTCTACCCCTTTGTCCGTTGACAGTGCCACCATCCCTTGCGATCGTTATTAGTAA GAFSTPLSVDSATIPCDRY** -1.136 0.001829 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26795 SAHSCYDLVGIHYAARPIVG 20 SLAY-screened peptide P5145 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGCCCATAGCTGTTATGATTTGGTTGGCATTCATTACGCTGCCCGTCCTATCGTTGGGTAA SAHSCYDLVGIHYAARPIVG* -1.136 0.011653 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26796 PISGNWTIYPVFVSTPIIYS 20 SLAY-screened peptide P5146 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATCAGCGGCAATTGGACTATTTATCCTGTTTTTGTTAGTACTCCTATTATTTATAGTTAA PISGNWTIYPVFVSTPIIYS* -1.136 0.000137 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26797 LHYKR 5 SLAY-screened peptide P5147 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCATTATAAGCGCTAGACGGTGGCTAGTAACGTGGATAGGTTTACCAAGCTCGCCAGGTAA LHYKR*TVASNVDRFTKLAR* -1.135 0.008096 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26798 YIFPLSTTTFCGHFMRYCNS 20 SLAY-screened peptide P5148 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACATTTTCCCGCTCTCCACGACTACCTTTTGTGGCCACTTCATGAGGTACTGTAACTCGTAA YIFPLSTTTFCGHFMRYCNS* -1.135 0.000457 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26799 DVRPDPWRAPQTLCIPLIYT 20 SLAY-screened peptide P5149 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGTCCGTCCTGATCCCTGGCGGGCGCCTCAGACCTTGTGCATTCCTCTTATTTATACCTAA DVRPDPWRAPQTLCIPLIYT* -1.135 0.016572 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26800 AKSNDCRHKPFWTTYDYMQV 20 SLAY-screened peptide P5150 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTAAGTCGAATGATTGTCGTCACAAGCCCTTCTGGACTACGTACGACTACATGCAGGTCTAA AKSNDCRHKPFWTTYDYMQV* -1.135 0.039563 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26801 LRHSAELPYSIYSKYQYFTI 20 SLAY-screened peptide P5151 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCGTCACTCGGCTGAGTTGCCCTATTCTATCTACAGTAAGTATCAGTATTTTACCATTTAA LRHSAELPYSIYSKYQYFTI* -1.135 0.002672 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26802 NIISDLMRKANILISKIMCW 20 SLAY-screened peptide P5152 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATATCATCTCTGACCTTATGCGGAAGGCCAACATCCTTATTTCTAAGATCATGTGTTGGTAA NIISDLMRKANILISKIMCW* -1.135 0.000467 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26803 LMSPWILLLDAHWFEHFFAY 20 SLAY-screened peptide P5153 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATGAGCCCGTGGATTCTCCTTCTCGATGCTCACTGGTTCGAGCACTTTTTTGCCTATTAA LMSPWILLLDAHWFEHFFAY* -1.134 0.001901 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26804 AIGTYGLHEYSHSFPLHMCF 20 SLAY-screened peptide P5154 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTATTGGGACCTACGGTTTGCACGAGTATAGCCATTCCTTCCCTCTTCATATGTGCTTTTAA AIGTYGLHEYSHSFPLHMCF* -1.134 0.001583 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26805 RLISRLFLALILRLIGSVRVN 21 SLAY-screened peptide P5155 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGCCGGCTCATTTCCCGCCTCTTCCTCGCGCTCATACTGAGACTTATTGGGTCAGTGCGAGTTAAC RLISRLFLALILRLIGSVRVN -1.134 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26806 TGTIVNYFFIFC 12 SLAY-screened peptide P5156 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGGTACTATCGTTAATTACTTTTTCATTTTCTGCTAGAACCGGAACGCTCCCACTTACTAA TGTIVNYFFIFC*NRNAPTY* -1.134 0.031916 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26807 SGAHWP 6 SLAY-screened peptide P5157 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGGCGCCCACTGGCCGTAGCGCTCCCCCAAGTTTATCTACCCGTATAAGTTTGTCCACTAA SGAHWP*RSPKFIYPYKFVH* -1.134 0.000086 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26808 WPGYTDCWCQAQMHRFSQCY 20 SLAY-screened peptide P5158 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCCGGTTACACTGACTGCTGGTGCCAGGCGCAGATGCACAGGTTTAGCCAGTGCTATTAA WPGYTDCWCQAQMHRFSQCY* -1.134 0.001798 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26809 PFISFVYPSRHLCHASNSSD 20 SLAY-screened peptide P5159 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTTCATCTCTTTCGTTTACCCTTCCAGGCACCTTTGTCACGCCAGCAATTCGAGTGATTAA PFISFVYPSRHLCHASNSSD* -1.134 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26810 APSGCARNLCKVSMTESSTL 20 SLAY-screened peptide P5160 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCGAGTGGCTGCGCTCGTAACCTGTGTAAGGTCTCCATGACGGAGAGCTCGACTCTCTAA APSGCARNLCKVSMTESSTL* -1.134 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26811 CWNRSYGSARGIRIFATRIN 20 SLAY-screened peptide P5161 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTGGAACCGCTCTTATGGTAGTGCCAGAGGAATACGCATATTTGCAACCCGCATTAACTGA CWNRSYGSARGIRIFATRIN* -1.134 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26812 PDLDVDPSFHYTDTIYSWPC 20 SLAY-screened peptide P5162 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGACCTTGACGTCGACCCTAGCTTTCATTACACGGATACCATTTATAGCTGGCCCTGCTAA PDLDVDPSFHYTDTIYSWPC* -1.133 0.015519 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26813 RSLRYWDHVHLTLDPRYMCI 20 SLAY-screened peptide P5163 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCGCTGCGCTACTGGGACCATGTTCACTTGACCCTCGACCCTCGCTATATGTGCATCTAA RSLRYWDHVHLTLDPRYMCI* -1.133 0.011946 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26814 ATGRLGNHRTQRWDLARFTV 20 SLAY-screened peptide P5164 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACCGGCCGCTTGGGTAATCACCGGACCCAGCGCTGGGACCTTGCCCGTTTTACGGTTTAA ATGRLGNHRTQRWDLARFTV* -1.133 0.000463 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26815 PTFCALAHLTS 11 SLAY-screened peptide P5165 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACCTTCTGCGCGCTTGCCCACCTTACCTCTTAGTCCACTCTGCAGGGCGTTCTGTATTAA PTFCALAHLTS*STLQGVLY* -1.133 0.040976 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26816 FNPCGSCTPFTCWLPRSYK 19 SLAY-screened peptide P5166 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAACCCGTGTGGCTCTTGTACTCCCTTTACGTGTTGGCTCCCCCGGTCTTACAAGTAGTAA FNPCGSCTPFTCWLPRSYK** -1.133 0.009782 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26817 WLQIRIRGDP 10 SLAY-screened peptide P5167 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCTTCAGATCCGGATCAGGGGCGATCCTTAGGCGCACTAGCCTGAGCTGACTTAGGTCTAA WLQIRIRGDP*AH*PELT*V* -1.132 0.026727 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26818 STNTNDWFSHNTPPTVVSD 19 SLAY-screened peptide P5168 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTACCAACACCAATGACTGGTTTTCCCATAATACGCCCCCCACTGTTGTGAGCGATTAACTG STNTNDWFSHNTPPTVVSD*L -1.132 0.001499 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26819 PLQSPYFCVSPSELMSQYRI 20 SLAY-screened peptide P5169 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTCAGTCCCCGTATTTTTGTGTGAGCCCCTCTGAGCTCATGTCCCAGTACCGTATTTAA PLQSPYFCVSPSELMSQYRI* -1.132 0.000684 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26820 RLKYFSPL 8 SLAY-screened peptide P5170 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTTAAGTACTTTAGCCCTTTGTAGAACAAGGACTGTTACTATGATGCCCACCATCCTTAA RLKYFSPL*NKDCYYDAHHP* -1.131 0.018192 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26821 FKDACPGTPYSYPIIIVAAQ 20 SLAY-screened peptide P5171 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAAGGATGCCTGCCCGGGTACGCCCTATTCCTATCCCATTATTATCGTTGCTGCTCAGTAA FKDACPGTPYSYPIIIVAAQ* -1.131 0.000697 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26822 PMLCYYSPITNGGKSCFVFVN 21 SLAY-screened peptide P5172 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATGCTCTGCTATTATAGTCCGATCACCAATGGCGGTAAGAGTTGCTTCGTATTTGTTAAC PMLCYYSPITNGGKSCFVFVN -1.131 0.021789 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26823 YCATTYSDACSIFPHATA 18 SLAY-screened peptide P5173 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGTGCCACCACTTACTCCGATGCGTGCTCTATTTTCCCTCACGCCACCGCCTAGAATTAA YCATTYSDACSIFPHATA*N* -1.131 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26824 PFHYLLI 7 SLAY-screened peptide P5174 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTCCATTATCTCCTGATTTAGTTTTGTGAGACCCATACGTCCAACCAGCAGACATTTAAC PFHYLLI*FCETHTSNQQTFN -1.131 0.000062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26825 ALPMFTVSCLISNAVLHRRS 20 SLAY-screened peptide P5175 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCTCCCCATGTTTACCGTCTCGTGTCTTATCTCCAACGCCGTTTTGCACAGGCGGTCCTAA ALPMFTVSCLISNAVLHRRS* -1.131 0.000094 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26826 ILWLRLLRHFVFSKTIHTIP 20 SLAY-screened peptide P5176 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTGTGGCTGCGGCTCCTTCGCCACTTCGTTTTCTCCAAGACCATTCATACCATTCCGTAA ILWLRLLRHFVFSKTIHTIP* -1.131 0.039884 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26827 RHPLLTWCDHHMCPCAYWLN 20 SLAY-screened peptide P5177 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCATCCCTTGCTTACCTGGTGCGATCACCATATGTGTCCCTGTGCTTACTGGCTTAACTAA RHPLLTWCDHHMCPCAYWLN* -1.131 0.000032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26828 PKTFTPYATGSDCFSIDYIV 20 SLAY-screened peptide P5178 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAAGACTTTTACGCCGTATGCTACCGGTTCTGACTGCTTCAGTATCGATTATATCGTTTAA PKTFTPYATGSDCFSIDYIV* -1.131 0.003917 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26829 THYYFHLFTTLTGCVESASD 20 SLAY-screened peptide P5179 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCATTATTACTTCCATCTTTTCACGACCCTTACTGGTTGCGTCGAGTCGGCGTCGGACTAA THYYFHLFTTLTGCVESASD* -1.131 0.03453 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26830 NCLTHNPGASHSMTPLWHAL 20 SLAY-screened peptide P5180 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTGCCTCACCCATAATCCCGGCGCTTCCCATAGTATGACGCCCCTTTGGCATGCTCTCTAA NCLTHNPGASHSMTPLWHAL* -1.131 0.010594 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26831 PVGLDASEIAS 11 SLAY-screened peptide P5181 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTTGGCCTCGACGCTTCCGAGATTGCTAGCTAGCTTTTCTAGATTGCCCACTCCAGTTAA PVGLDASEIAS*LF*IAHSS* -1.131 0.02335 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26832 AHCLRSHNSPSYLPAHVHRA 20 SLAY-screened peptide P5182 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCACTGTCTTCGTTCGCACAATTCTCCGTCTTACCTCCCGGCTCACGTCCATCGGGCCTAA AHCLRSHNSPSYLPAHVHRA* -1.13 0.013238 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26833 ELTPCLL 7 SLAY-screened peptide P5183 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCTTACCCCTTGCCTCTTGTAGAGCCTCATTGGCTGCTCTGCTGGCTGCTGTTCCGCCTAA ELTPCLL*SLIGCSAGCCSA* -1.13 0.000586 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26834 LPTPCTLHPYSRALLVNLTN 20 SLAY-screened peptide P5184 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCCACCCCTTGCACGCTGCATCCCTACAGTCGGGCTTTGCTCGTGAATCTCACCAACTAA LPTPCTLHPYSRALLVNLTN* -1.13 0.033112 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26835 TYPACLYVHSNYIMTMPVYT 20 SLAY-screened peptide P5185 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTATCCCGCTTGTCTCTATGTTCACAGCAACTATATCATGACCATGCCTGTCTATACCTAA TYPACLYVHSNYIMTMPVYT* -1.13 0.00004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26836 TD 2 SLAY-screened peptide P5186 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGACTAGTGGGATTCGTATCCCATCGGACTGCAATAAGACGCGTCCCCGTTTTGTGTAACT TD*WDSYPIGLQ*DASPFCVT -1.13 0.001014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26837 RAIDGPKGKLHTYIYATGTA 20 SLAY-screened peptide P5187 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCGATTGATGGTCCTAAGGGTAAGCTCCACACTTACATCTATGCCACGGGTACCGCTTAA RAIDGPKGKLHTYIYATGTA* -1.13 0.000006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26838 TGDILFHFFYQPTYSLFNLW 20 SLAY-screened peptide P5188 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGGTGATATTCTCTTCCATTTCTTCTATCAGCCGACTTATTCTCTCTTTAATCTGTGGTAA TGDILFHFFYQPTYSLFNLW* -1.129 0.038349 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26839 PYATFLPPLISAATCVACNP 20 SLAY-screened peptide P5189 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTACGCCACTTTTCTCCCGCCTCTTATCTCGGCGGCTACTTGCGTCGCTTGCAATCCCTAA PYATFLPPLISAATCVACNP* -1.129 0.006035 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26840 RLTSLYVPSPPFLFSVSYQR 20 SLAY-screened peptide P5190 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTTGACGTCGCTTTATGTTCCCAGCCCCCCCTTCCTGTTTTCTGTGTCTTATCAGCGTTAA RLTSLYVPSPPFLFSVSYQR* -1.129 0.013835 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26841 PSLGRAPPTSAYHVPDTPIP 20 SLAY-screened peptide P5191 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCGCTGGGGCGCGCGCCGCCGACTAGTGCTTATCATGTTCCGGACACTCCTATTCCCTAA PSLGRAPPTSAYHVPDTPIP* -1.129 0.007639 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26842 ASSSDTCTHD 10 SLAY-screened peptide P5192 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTCTTCTTCCGACACGTGTACGCATGATTAGACGTACAACGACGCCAATCGCCGCGTCTAA ASSSDTCTHD*TYNDANRRV* -1.128 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26843 TWSLRDPYQANPFTVRCFY 19 SLAY-screened peptide P5193 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGTGGAGCCTGAGGGACCCGTATCAGGCTAATCCCTTTACCGTTCGTTGTTTCTACTAACTG TWSLRDPYQANPFTVRCFY*L -1.128 0.006612 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26844 CVLNTCRRRVVYPANTNSNY 20 SLAY-screened peptide P5194 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGTCCTTAACACCTGTCGTCGGAGGGTTGTGTACCCCGCTAATACGAACAGCAATTATTAA CVLNTCRRRVVYPANTNSNY* -1.128 0.000057 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26845 PFADEYVLPHGFIPYPQTPL 20 SLAY-screened peptide P5195 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTTCGCCGACGAGTACGTTCTGCCTCATGGTTTCATTCCCTATCCTCAGACTCCCCTCTAA PFADEYVLPHGFIPYPQTPL* -1.127 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26846 LFPCWAYHLHNNHFLNMTLY 20 SLAY-screened peptide P5196 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTTCCCCTGCTGGGCCTATCACCTCCATAATAACCATTTTCTTAATATGACTTTGTACTAA LFPCWAYHLHNNHFLNMTLY* -1.127 0.001233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26847 YHSPFCTPFQLLDARVASPA 20 SLAY-screened peptide P5197 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCACTCTCCTTTCTGCACGCCTTTTCAGCTTCTGGATGCTAGGGTTGCGTCCCCTGCGTAA YHSPFCTPFQLLDARVASPA* -1.127 0.000532 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26848 LRPRRYFNLLFGRRRDLKRS 20 SLAY-screened peptide P5198 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCGCCCCCGTCGCTATTTCAATTTGTTGTTCGGTAGGCGCCGTGACCTTAAGCGGAGCTAA LRPRRYFNLLFGRRRDLKRS* -1.126 0.016259 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26849 VTSPPTYQTCFVCWFSVLCN 20 SLAY-screened peptide P5199 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCACCAGCCCCCCCACGTATCAGACTTGCTTCGTTTGTTGGTTTTCTGTCTTGTGCAACTAA VTSPPTYQTCFVCWFSVLCN* -1.126 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26850 PGEQHSLMLSRVLLAALRYVM 21 SLAY-screened peptide P5200 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGTGAGCAGCATTCCTTGATGTTATCACGGGTCTTGTTAGCAGCTCTACGCTATGTAATG PGEQHSLMLSRVLLAALRYVM -1.126 0.000218 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26851 HACLLTNYHTLNAVTWMRKP 20 SLAY-screened peptide P5201 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCCTGCCTTCTTACTAATTACCACACGCTTAACGCCGTTACCTGGATGCGCAAGCCTTAA HACLLTNYHTLNAVTWMRKP* -1.126 0.00178 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26852 VRRIDDPGCQWNHYSSAG 18 SLAY-screened peptide P5202 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCGGCGTATCGATGACCCTGGGTGCCAGTGGAACCACTATTCTTCCGCTGGTTAGCTGTAA VRRIDDPGCQWNHYSSAG*L* -1.126 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26853 PLIAPHLLYCNHN 13 SLAY-screened peptide P5203 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTATTGCTCCTCACCTCTTGTATTGCAACCATAATTGACCTACCATCATAGTGCCTAAC PLIAPHLLYCNHN*PTIIVPN -1.126 0.000083 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26854 NNPSCDCSFFPKLLFIPCLA 20 SLAY-screened peptide P5204 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAACCCGTCTTGCGATTGTAGTTTCTTCCCTAAGCTGTTGTTCATTCCTTGCCTCGCCTAA NNPSCDCSFFPKLLFIPCLA* -1.125 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26855 PDEINCSLQTRTLNVHIYSH 20 SLAY-screened peptide P5205 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGACGAGATTAACTGTTCTCTCCAGACTCGTACGCTTAATGTTCATATCTACAGTCATTAA PDEINCSLQTRTLNVHIYSH* -1.125 0.000076 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26856 PSPDYTCPNYASSMFHLYSI 20 SLAY-screened peptide P5206 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGTCCGGACTATACGTGCCCGAATTACGCCAGCTCTATGTTTCATCTTTACAGCATCTAA PSPDYTCPNYASSMFHLYSI* -1.125 0.001057 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26857 SDTCAVASA 9 SLAY-screened peptide P5207 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGATACTTGTGCTGTCGCGTCCGCGTAGTCGAGTGTTAACGTCACCCATAGTCGTTTTTAA SDTCAVASA*SSVNVTHSRF* -1.125 0.022835 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26858 RFPFWMSFAVSKCTRHSYKY 20 SLAY-screened peptide P5208 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTTTCCCTTTTGGATGTCGTTCGCGGTCTCCAAGTGTACTCGGCATAGCTATAAGTACTAA RFPFWMSFAVSKCTRHSYKY* -1.125 0.024258 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26859 PT 2 SLAY-screened peptide P5209 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACTTAGAGCCTTACCCTCCGGCTGCGGCCCACGACCGTCAGCCATCCTATCAAGGACTAA PT*SLTLRLRPTTVSHPIKD* -1.124 0.004099 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26860 SGVHFSPSTRLSGDPNGAVS 20 SLAY-screened peptide P5210 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGGTGTCCACTTTAGCCCCTCCACGCGCCTCTCCGGGGACCCCAACGGTGCCGTCTCCTAA SGVHFSPSTRLSGDPNGAVS* -1.124 0.000366 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26861 STHHKGNHDIYPIYVHH 17 SLAY-screened peptide P5211 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCACTCACCACAAGGGTAATCATGACATCTACCCTATTTATGTTCACCATTAGCACTGCTAA STHHKGNHDIYPIYVHH*HC* -1.124 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26862 SDV 3 SLAY-screened peptide P5212 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGACGTTTAGGCCCCCATCAATTGGGTTCCTAACTCTTGTCATGACTGCGACGCGTACTAA SDV*APINWVPNSCHDCDAY* -1.124 0.000682 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26863 LPSIHTIS 8 SLAY-screened peptide P5213 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCGTCGATTCATACTATCTCTTAGGAGTCCTTCCTCAATAGCCGGGTCTCCTGTCTCTAA LPSIHTIS*ESFLNSRVSCL* -1.123 0.008227 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26864 YCHTPAQFYPLR 12 SLAY-screened peptide P5214 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGCCATACCCCCGCGCAGTTTTATCCGTTGCGGTAGTCTCTCCTCACTGCCGGCAGCTAA YCHTPAQFYPLR*SLLTAGS* -1.123 0.024152 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26865 RDLPSNCCLIIYPLVSTGDW 20 SLAY-screened peptide P5215 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGACCTCCCCAGCAACTGTTGCCTTATCATTTATCCGCTTGTCTCTACTGGCGACTGGTAA RDLPSNCCLIIYPLVSTGDW* -1.123 0.002815 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26866 SVSAKWRPVLLFWT 14 SLAY-screened peptide P5216 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGTGTCCGCCAAGTGGCGGCCTGTGCTGCTCTTTTGGACGTAGGCCCCTACCTAGTGTTAA SVSAKWRPVLLFWT*APT*C* -1.123 0.01258 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26867 PRVYIATMTESYLLMVSRCY 20 SLAY-screened peptide P5217 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCGTTTACATCGCCACCATGACCGAGAGCTATCTGCTTATGGTCTCTCGCTGTTACTAA PRVYIATMTESYLLMVSRCY* -1.123 0.008061 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26868 ARSHPRATDHMLIFCMTYYP 20 SLAY-screened peptide P5218 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCGTTCTCACCCTCGTGCTACTGACCACATGCTGATCTTCTGCATGACTTACTATCCTTAA ARSHPRATDHMLIFCMTYYP* -1.122 0.002428 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26869 PLDMKSTLPRHGHYPHQSI 19 SLAY-screened peptide P5219 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCGATATGAAGTCCACCTTGCCTCGTCATGGTCATTATCCCCACCAGTCTATTTAGTAA PLDMKSTLPRHGHYPHQSI** -1.122 0.000673 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26870 PYCRGGNRSLPRTVFPYVPL 20 SLAY-screened peptide P5220 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTATTGCCGGGGCGGGAACAGGTCGCTGCCCAGGACCGTCTTTCCTTATGTTCCGCTTTAA PYCRGGNRSLPRTVFPYVPL* -1.122 0.015636 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26871 VSPILYSIGHKNPKYSTGYC 20 SLAY-screened peptide P5221 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTCTCCTATCCTTTACTCCATTGGTCACAAGAACCCCAAGTACTCGACGGGTTATTGTTAA VSPILYSIGHKNPKYSTGYC* -1.122 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26872 YCPLYLAANQIYI 13 SLAY-screened peptide P5222 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTGCCCCCTGTACCTGGCTGCCAACCAGATTTACATTTAGCACTAGCTTTTCTATAACTAA YCPLYLAANQIYI*H*LFYN* -1.121 0.000069 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26873 SRNRSACAFKQPDTMAKSYY 20 SLAY-screened peptide P5223 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAGGAACCGCAGTGCCTGCGCCTTCAAGCAGCCCGATACGATGGCTAAGAGTTACTATTAA SRNRSACAFKQPDTMAKSYY* -1.121 0.00149 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26874 VLTTVVVNCPWDRG 14 SLAY-screened peptide P5224 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCCTCACGACCGTTGTCGTTAACTGTCCCTGGGATCGCGGCTAGGTTGTGACGGGCAGTTAA VLTTVVVNCPWDRG*VVTGS* -1.121 0.000213 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26875 SQVILCS 7 SLAY-screened peptide P5225 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCAGGTTATCCTCTGTTCGTAGTCTCTCAGCTATTACATTCACAACTACAATAAGCGTTAA SQVILCS*SLSYYIHNYNKR* -1.121 0.000173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26876 FAVHVTHRAQPLSPQGLYLH 20 SLAY-screened peptide P5226 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGCCGTTCATGTTACTCACAGGGCCCAGCCGCTCTCTCCCCAGGGCCTTTATCTTCATTAA FAVHVTHRAQPLSPQGLYLH* -1.121 0.003176 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26877 CQTRSANLLTIFIIVVLLRRN 21 SLAY-screened peptide P5227 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCAGACGCGTTCTGCCAACTTGCTCACAATTTTCATAATAGTTGTCCTACTGCGGCGTAAC CQTRSANLLTIFIIVVLLRRN -1.121 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26878 VPNCNTLIYYIG 12 SLAY-screened peptide P5228 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCCGAATTGCAATACCCTTATTTATTATATCGGCTAGCGTAACGGGAGGAAGGCTTATTAA VPNCNTLIYYIG*RNGRKAY* -1.121 0.003846 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26879 PTVTCQPIPLLAPVYSV 17 SLAY-screened peptide P5229 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACGGTCACTTGTCAGCCTATCCCCCTCTTGGCCCCCGTTTACTCTGTGTAGAAGACCTAA PTVTCQPIPLLAPVYSV*KT* -1.121 0.000197 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26880 CAHACPKCPESSCHGYNHPH 20 SLAY-screened peptide P5230 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCTCACGCCTGCCCTAAGTGTCCGGAGAGTAGTTGCCACGGCTATAACCATCCCCACTAA CAHACPKCPESSCHGYNHPH* -1.121 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26881 PNLSFGSDCFWYTAVASLTT 20 SLAY-screened peptide P5231 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAATCTCTCGTTTGGCAGCGATTGCTTTTGGTACACTGCCGTTGCCTCTCTTACCACCTAA PNLSFGSDCFWYTAVASLTT* -1.121 0.014679 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26882 MPRGNNHIGATTCEDQTQ 18 SLAY-screened peptide P5232 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCCTCGGGGTAACAACCATATTGGGGCGACGACTTGCGAGGACCAGACCCAGTAGATGTAA MPRGNNHIGATTCEDQTQ*M* -1.12 0.006701 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26883 PVRNPIIYYRVNIHFHRIKR 20 SLAY-screened peptide P5233 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTGCGTAATCCTATCATTTATTACAGGGTTAACATTCACTTTCACCGTATTAAGCGCTAA PVRNPIIYYRVNIHFHRIKR* -1.12 0.000983 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26884 PTWPNTCWIPYHPASLGIDA 20 SLAY-screened peptide P5234 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACGTGGCCGAATACGTGCTGGATTCCCTACCACCCCGCTTCTCTCGGTATTGATGCTTAA PTWPNTCWIPYHPASLGIDA* -1.12 0.002406 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26885 HSPARGSCVDLYYSYCYYSC 20 SLAY-screened peptide P5235 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAGTCCGGCCCGGGGCAGTTGCGTTGATCTTTACTACTCGTATTGTTATTATAGCTGTTAA HSPARGSCVDLYYSYCYYSC* -1.12 0.028116 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26886 PLDLMFCSGPNTPHFPSPQK 20 SLAY-screened peptide P5236 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGGACCTCATGTTCTGTAGCGGCCCGAATACCCCGCATTTCCCCAGTCCTCAGAAGTAA PLDLMFCSGPNTPHFPSPQK* -1.12 0.000709 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26887 LCTSFVFFRASWLNHICTDA 20 SLAY-screened peptide P5237 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTGCACTTCGTTTGTTTTCTTTCGGGCGTCTTGGCTTAATCATATCTGTACCGACGCCTAA LCTSFVFFRASWLNHICTDA* -1.12 0.000162 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26888 VAPYGPYTPTIPSSRLYILV 20 SLAY-screened peptide P5238 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGCGCCGTACGGGCCTTATACCCCGACCATCCCTTCGTCCCGTTTGTACATTCTTGTCTAA VAPYGPYTPTIPSSRLYILV* -1.119 0.001738 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26889 SNPACVAAIIYAKSLCTLTL 20 SLAY-screened peptide P5239 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCAACCCCGCGTGCGTGGCCGCCATCATCTACGCTAAGTCCCTCTGTACGCTTACTCTGTAA SNPACVAAIIYAKSLCTLTL* -1.118 0.000222 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26890 THPHLYAYRTKYGSYGHLKV 20 SLAY-screened peptide P5240 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCACCCCCATCTCTACGCTTATCGGACTAAGTATGGCTCTTACGGTCACCTGAAGGTGTAA THPHLYAYRTKYGSYGHLKV* -1.118 0.000169 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26891 STTHPFHDRDLCCSPTYLYL 20 SLAY-screened peptide P5241 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTACGACGCACCCTTTCCACGACCGGGATCTGTGCTGTAGCCCGACCTACTTGTATCTGTAA STTHPFHDRDLCCSPTYLYL* -1.118 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26892 SCPNTAFTFDYAQLFNPRRM 20 SLAY-screened peptide P5242 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGCCCTAACACCGCGTTTACGTTCGACTACGCCCAGCTTTTTAACCCGCGGAGGATGTAA SCPNTAFTFDYAQLFNPRRM* -1.118 0.005193 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26893 PTRSNVI 7 SLAY-screened peptide P5243 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACCCGTTCTAACGTCATTTAGGCTGGCGGCTTGGTTAGTAGCAATTCTGGCCCCTTGTAA PTRSNVI*AGGLVSSNSGPL* -1.118 0.000404 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26894 FFVDGTNLSIDIPNQWYLTPN 21 SLAY-screened peptide P5244 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTTCGTTGACGGGACCAACCTCTCGATTGATATCCCTAATCAGTGGTACCTTACACCTAAC FFVDGTNLSIDIPNQWYLTPN -1.118 0.010996 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26895 VPACLLIPSFLLCSFSPGHT 20 SLAY-screened peptide P5245 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCCGCTTGTCTTCTTATCCCCAGTTTCCTCCTGTGCAGCTTTTCTCCTGGGCATACTTAA VPACLLIPSFLLCSFSPGHT* -1.117 0.000212 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26896 AVIGTTTFALSLVIRTSSLAN 21 SLAY-screened peptide P5246 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGGGCGGTTATTGGAACGACAACATTTGCGTTAAGCCTGGTAATAAGGACCTCCTCTCTCGCTAAC AVIGTTTFALSLVIRTSSLAN -1.117 0.037433 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26897 RPQ 3 SLAY-screened peptide P5247 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCTCAGTAGCCTGCCCGGCCCAGTCCTCGTCTGGTTGTTTATGTGCGTTGCTTGATCTAA RPQ*PARPSPRLVVYVRCLI* -1.117 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26898 SRHGVSDTTDSMPNCWGYIV 20 SLAY-screened peptide P5248 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCGCCACGGTGTTAGCGATACTACCGATAGTATGCCCAATTGCTGGGGGTATATTGTCTAA SRHGVSDTTDSMPNCWGYIV* -1.117 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26899 LLPLVYNQRGRLSNSYAPGP 20 SLAY-screened peptide P5249 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCTGCCCTTGGTGTACAACCAGCGCGGCCGTCTCAGCAATAGTTATGCGCCTGGTCCCTAA LLPLVYNQRGRLSNSYAPGP* -1.117 0.003404 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26900 HS 2 SLAY-screened peptide P5250 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTCGTAGGATGCGACGTATAATTGCTTGCGTGTGCCGACTTATTACTCCACGCGGCGCTAA HS*DATYNCLRVPTYYSTRR* -1.117 0.001398 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26901 NTDTKVCKALSFWISIPCPFN 21 SLAY-screened peptide P5251 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACGGACACCAAGGTGTGCAAAGCCCTGAGCTTCTGGATATCCATACCATGCCCCTTTAAC NTDTKVCKALSFWISIPCPFN -1.116 0.042087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26902 SCYCPLTVFGFPFLA 15 SLAY-screened peptide P5252 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTGCTACTGCCCGCTTACTGTTTTCGGTTTCCCTTTCCTGGCGTAGTGGCCCATGGATTAA SCYCPLTVFGFPFLA*WPMD* -1.116 0.012563 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26903 YSPTCNSVYPLGLFPTWGHY 20 SLAY-screened peptide P5253 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTCTCCCACCTGTAACTCTGTCTATCCTCTGGGGCTTTTCCCGACGTGGGGTCACTATTAA YSPTCNSVYPLGLFPTWGHY* -1.116 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26904 SPHLPPPVRLYHELRLPHLC 20 SLAY-screened peptide P5254 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCCCCATTTGCCCCCGCCGGTTAGGCTGTATCACGAGCTCCGCCTTCCTCATTTGTGTTAA SPHLPPPVRLYHELRLPHLC* -1.116 0.00063 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26905 RHYPNTSWRRPSSRLS 16 SLAY-screened peptide P5255 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCACTACCCGAACACTAGCTGGCGGCGCCCTTCCAGCCGGTTGAGCTAGGCCGACAAGTAA RHYPNTSWRRPSSRLS*ADK* -1.115 0.021704 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26906 MIAFPNRIIQ 10 SLAY-screened peptide P5256 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGATCGCCTTTCCCAATCGCATCATCCAGTAGGCGTAGAACTATCATCGCAGTCTGGACTAA MIAFPNRIIQ*A*NYHRSLD* -1.115 0.002429 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26907 CNLYYDCPYYTYLRYRGVKC 20 SLAY-screened peptide P5257 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAATCTTTACTATGATTGTCCTTACTACACTTATCTTCGTTACCGTGGCGTCAAGTGTTAA CNLYYDCPYYTYLRYRGVKC* -1.115 0.005243 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26908 PANNAEFLGRLHVPDVFST 19 SLAY-screened peptide P5258 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTAATAATGCAGAATTTCTCGGCCGTTTACACGTGCCTGATGTTTTCTCCACCTAACTG PANNAEFLGRLHVPDVFST*L -1.115 0.039769 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26909 LQGKKIPIYLCLYNDITKNR 20 SLAY-screened peptide P5259 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCAGGGGAAGAAGATCCCCATTTACCTTTGTCTCTATAACGATATTACCAAGAATCGGTAA LQGKKIPIYLCLYNDITKNR* -1.115 0.020883 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26910 GLYIHVPHDMYPLYKCHYIF 20 SLAY-screened peptide P5260 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGCTTTATATCCATGTCCCCCACGATATGTATCCTCTTTATAAGTGCCACTATATCTTTTAA GLYIHVPHDMYPLYKCHYIF* -1.114 0.016505 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26911 RFCPREGRAEGWLPRYQTT 19 SLAY-screened peptide P5261 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTTTGCCCGCGTGAGGGTAGGGCCGAGGGTTGGCTGCCCAGGTATCAGACGACCTAGTAA RFCPREGRAEGWLPRYQTT** -1.114 0.012391 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26912 CSFNQWYSMFPYSAAYNSLK 20 SLAY-screened peptide P5262 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAGTTTTAACCAGTGGTATTCCATGTTTCCCTACTCCGCGGCCTATAACAGTCTTAAGTAA CSFNQWYSMFPYSAAYNSLK* -1.114 0.000771 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26913 CVPKLFTPNLVRSCPSTVCN 20 SLAY-screened peptide P5263 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTCCCCAAGCTTTTCACCCCGAACCTTGTTCGTAGTTGTCCCAGCACTGTGTGTAACTAA CVPKLFTPNLVRSCPSTVCN* -1.114 0.000276 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26914 PQSNYYLISMSDPNYWIGNI 20 SLAY-screened peptide P5264 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCAGAGTAATTATTATCTGATTTCGATGTCCGATCCGAACTACTGGATTGGCAATATTTAA PQSNYYLISMSDPNYWIGNI* -1.114 0.044327 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26915 VMF 3 SLAY-screened peptide P5265 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCATGTTTTAGGACTCGTCTAGCACCCGGTGCTCTTCCTTTCCTATGATTCGTACCCTGTAA VMF*DSSSTRCSSFPMIRTL* -1.114 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26916 NRMVCYSTDNAPFVLACIQS 20 SLAY-screened peptide P5266 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAGGATGGTGTGCTACAGTACGGATAACGCCCCCTTCGTGCTTGCCTGTATCCAGTCGTAA NRMVCYSTDNAPFVLACIQS* -1.113 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26917 RISPAAKENFGFYLNSILLA 20 SLAY-screened peptide P5267 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGATTTCCCCTGCCGCCAAGGAGAACTTTGGTTTTTATCTCAACTCCATTTTGCTTGCGTAA RISPAAKENFGFYLNSILLA* -1.113 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26918 PNLCLLTPLSAFWYTYPPIM 20 SLAY-screened peptide P5268 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAATCTTTGTTTGCTCACTCCCCTGAGCGCGTTTTGGTACACTTATCCCCCGATTATGTAA PNLCLLTPLSAFWYTYPPIM* -1.113 0.010302 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26919 QGCLHPPRGAY 11 SLAY-screened peptide P5269 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAAGGATGCCTACACCCTCCACGAGGCGCTTATTAAGTTTCAGACTTCTATCCACTAGTAACT QGCLHPPRGAY*VSDFYPLVT -1.113 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26920 PPYSRWYTWRYTDYNAIYSC 20 SLAY-screened peptide P5270 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTTACTCTCGCTGGTATACGTGGAGGTACACCGATTACAATGCTATTTACAGCTGCTAA PPYSRWYTWRYTDYNAIYSC* -1.113 0.000009 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26921 LGYSRTP 7 SLAY-screened peptide P5271 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGGCTACTCTCGTACGCCCTAGAGTCTTCGCAACGCCTATTTCAATCTTCATAACTTCTAA LGYSRTP*SLRNAYFNLHNF* -1.112 0.036348 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26922 TTITDCCRYDNPCTLFKWRY 20 SLAY-screened peptide P5272 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACCATTACCGACTGTTGTCGTTATGACAACCCGTGCACTTTGTTCAAGTGGCGCTATTAA TTITDCCRYDNPCTLFKWRY* -1.112 0.001325 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26923 DCAHNFSHPVYTNSI 15 SLAY-screened peptide P5273 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTGCGCCCATAACTTTTCTCATCCCGTTTACACGAATAGCATTTAGCCCTTCAATCTGTAA DCAHNFSHPVYTNSI*PFNL* -1.112 0.000044 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26924 PPDSGFNIDPCYVLVYAQLL 20 SLAY-screened peptide P5274 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTGATTCGGGCTTCAACATCGATCCTTGTTACGTCCTTGTTTACGCGCAGCTGCTTTAA PPDSGFNIDPCYVLVYAQLL* -1.111 0.012139 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26925 ADVFAASGRDTWSYYIMLHH 20 SLAY-screened peptide P5275 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGATGTTTTTGCGGCCTCGGGCCGCGATACTTGGTCGTATTACATCATGTTGCACCATTAA ADVFAASGRDTWSYYIMLHH* -1.111 0.002053 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26926 PARATSLTPLVVYPVVRCLS 20 SLAY-screened peptide P5276 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCTAGGGCTACGAGCCTCACCCCTCTTGTGGTGTATCCCGTCGTCCGCTGCCTGTCGTAA PARATSLTPLVVYPVVRCLS* -1.111 0.010638 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26927 HALSNMNIEASGNPFCIYIM 20 SLAY-screened peptide P5277 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGCGTTGTCTAATATGAACATCGAGGCTAGTGGTAACCCCTTTTGTATCTATATTATGTAA HALSNMNIEASGNPFCIYIM* -1.111 0.04568 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26928 LGSWGYSRCTN 11 SLAY-screened peptide P5278 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGGCTCGTGGGGGTACTCCCGCTGTACTAATTAGATTCCCAACTGTATTCAGTGTGGGTAA LGSWGYSRCTN*IPNCIQCG* -1.11 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26929 GCFNVSYQMANIHSAIY 17 SLAY-screened peptide P5279 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTGCTTCAACGTCAGTTATCAGATGGCTAACATTCACAGTGCTATTTATTAGATTCCTTAA GCFNVSYQMANIHSAIY*IP* -1.11 0.026751 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26930 YSPVHTTSGRMCININDWRTN 21 SLAY-screened peptide P5280 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTCCCCTGTGCACACGACGAGCGGTCGTATGTGCATCAACATCAACGATTGGAGAACTAAC YSPVHTTSGRMCININDWRTN -1.11 0.000368 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26931 ATQENVFLICPYYSY 15 SLAY-screened peptide P5281 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACTCAGGAGAACGTCTTTCTCATCTGTCCTTACTACTCGTACTAGACCTGTATTCATTAA ATQENVFLICPYYSY*TCIH* -1.11 0.002403 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26932 HHGTVCLSSPISSCNLPYIP 20 SLAY-screened peptide P5282 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCATGGCACTGTCTGTCTTAGCTCGCCGATCTCTAGTTGCAATCTTCCGTATATTCCTTAA HHGTVCLSSPISSCNLPYIP* -1.11 0.00878 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26933 QQISSTPALSTTTPNTGVSD 20 SLAY-screened peptide P5283 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCAGATCTCGTCCACCCCGGCTCTTTCTACCACCACCCCGAACACTGGGGTGAGTGACTAA QQISSTPALSTTTPNTGVSD* -1.11 0.000254 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26934 GPRRVVNSPAVECSAEHVSL 20 SLAY-screened peptide P5284 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCCCAGGCGTGTTGTGAATTCTCCTGCTGTGGAGTGCTCCGCTGAGCACGTTAGCCTTTAA GPRRVVNSPAVECSAEHVSL* -1.11 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26935 TLYSHQPLTFYSPSVCLVYF 20 SLAY-screened peptide P5285 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTGTACAGTCATCAGCCTCTCACGTTCTACTCGCCCTCTGTTTGCCTTGTGTACTTTTAA TLYSHQPLTFYSPSVCLVYF* -1.11 0.002477 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26936 SKPPQSDSVMFMLDPISCFP 20 SLAY-screened peptide P5286 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTAAGCCCCCTCAGAGCGATTCTGTGATGTTTATGCTGGACCCGATTAGCTGTTTTCCGTAA SKPPQSDSVMFMLDPISCFP* -1.11 0.00062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26937 ADRRVVLPHTPNCADGPPPA 20 SLAY-screened peptide P5287 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGACCGGCGCGTCGTTCTTCCGCACACGCCCAATTGCGCGGATGGGCCCCCCCCTGCCTAA ADRRVVLPHTPNCADGPPPA* -1.109 0.043025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26938 PRVLPTPFGMRRSHRRRFHL 20 SLAY-screened peptide P5288 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGGGTGCTTCCCACTCCTTTTGGCATGCGCCGGTCTCACAGGCGTAGGTTCCACCTGTAA PRVLPTPFGMRRSHRRRFHL* -1.109 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26939 RPYRVAHSALVLHCNSWDRP 20 SLAY-screened peptide P5289 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCTTATCGCGTTGCTCACTCGGCTCTTGTCCTCCACTGTAACTCGTGGGATCGCCCGTAA RPYRVAHSALVLHCNSWDRP* -1.109 0.004169 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26940 TCTRRQYTTFMFPTV 15 SLAY-screened peptide P5290 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTGTACCAGGCGTCAGTACACGACGTTTATGTTCCCTACTGTCTAGCGGCTAGACGTAACT TCTRRQYTTFMFPTV*RLDVT -1.109 0.035998 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26941 RGCALDTLNIV 11 SLAY-screened peptide P5291 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGGCTGCGCTCTTGATACTCTCAACATCGTTTAGTACAAGCGCCCTAATACTATTAATTAA RGCALDTLNIV*YKRPNTIN* -1.109 0.002935 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26942 LGGYACPYCHWFHITRNDCY 20 SLAY-screened peptide P5292 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGGGGGCTACGCTTGTCCGTACTGTCATTGGTTCCATATCACGCGCAACGATTGTTACTAA LGGYACPYCHWFHITRNDCY* -1.109 0.013038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26943 THLWSYPKLIPTLLCMFCRH 20 SLAY-screened peptide P5293 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCATCTGTGGAGTTACCCGAAGCTCATCCCGACTCTCTTGTGCATGTTCTGTCGGCACTAA THLWSYPKLIPTLLCMFCRH* -1.108 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26944 PRGHGLLLRDCIHDFPIYRT 20 SLAY-screened peptide P5294 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAGGGGCCATGGGCTTCTGCTTCGGGACTGTATTCACGATTTTCCTATTTATCGCACGTAA PRGHGLLLRDCIHDFPIYRT* -1.108 0.000327 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26945 PCIYAFPANYTHIIVHLART 20 SLAY-screened peptide P5295 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGCATCTACGCCTTCCCGGCTAATTACACTCACATCATCGTTCACTTGGCCCGTACGTAA PCIYAFPANYTHIIVHLART* -1.108 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26946 HESTYMQDIYSPYTPFLQQC 20 SLAY-screened peptide P5296 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGAGTCCACTTATATGCAGGATATCTATTCCCCCTATACTCCTTTCCTTCAGCAGTGCTAA HESTYMQDIYSPYTPFLQQC* -1.108 0.000397 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26947 AHGHSLDLLYIIVMFALYCY 20 SLAY-screened peptide P5297 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCACGGCCACTCTCTTGACCTTCTCTACATCATCGTCATGTTCGCCTTGTACTGTTATTAA AHGHSLDLLYIIVMFALYCY* -1.108 0.000316 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26948 ETPHLAALLAYLLIVSPHAL 20 SLAY-screened peptide P5298 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGACCCCCCATCTGGCCGCCCTGTTGGCTTATTTGCTGATTGTCTCGCCCCACGCCCTCTAA ETPHLAALLAYLLIVSPHAL* -1.108 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26949 HLVSISL 7 SLAY-screened peptide P5299 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTTGTCAGTATTTCCCTCTAGAATTTTACGCAGGTCCTGCTGAACTCGTCTCTTTCCTAA HLVSISL*NFTQVLLNSSLS* -1.108 0.012185 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26950 RSFAALGGYLPCYYLGSDHR 20 SLAY-screened peptide P5300 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCTTTTGCGGCGCTGGGCGGTTACCTTCCGTGCTATTACCTCGGTTCTGACCACCGCTAA RSFAALGGYLPCYYLGSDHR* -1.108 0.007761 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26951 ASTLRFPTHADSKV 14 SLAY-screened peptide P5301 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTCGACCCTGCGGTTTCCTACTCACGCCGATTCGAAGGTCTAGGAGACGGATAGTTTCTAA ASTLRFPTHADSKV*ETDSF* -1.108 0.001194 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26952 RRKRWLPALALRSLLMLVGVN 21 SLAY-screened peptide P5302 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGTAAACGTTGGTTACCGGCGCTCGCTCTCCGGAGTTTGCTAATGTTAGTAGGTGTTAAC RRKRWLPALALRSLLMLVGVN -1.107 0.006193 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26953 PSPCTTPLINGVPVHLVSRR 20 SLAY-screened peptide P5303 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTCTCCGTGCACGACTCCCCTGATTAATGGTGTCCCGGTCCACCTTGTCAGCCGTCGGTAA PSPCTTPLINGVPVHLVSRR* -1.107 0.014638 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26954 IVALHSNSHLRRYFHDSNID 20 SLAY-screened peptide P5304 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGTCGCGTTGCACAGCAATTCTCATCTTAGGCGCTATTTCCACGACTCTAACATTGACTAA IVALHSNSHLRRYFHDSNID* -1.107 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26955 TTATIIGY 8 SLAY-screened peptide P5305 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGACCGCTACTATCATCGGGTATTAGACGCGCCAGGGGTTTAACGGGCTCCGTCTCTATTAA TTATIIGY*TRQGFNGLRLY* -1.107 0.000199 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26956 TAHVKTHPSIL 11 SLAY-screened peptide P5306 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCTCATGTTAAGACTCATCCTTCGATTCTCTAGCATCACTCCCGCACTATTCCTAGGTAA TAHVKTHPSIL*HHSRTIPR* -1.106 0.001717 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26957 SFNCPFMPVKRTPLIERVIY 20 SLAY-screened peptide P5307 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTTCAATTGTCCGTTCATGCCGGTGAAGAGGACTCCGCTCATTGAGCGCGTTATCTATTAA SFNCPFMPVKRTPLIERVIY* -1.106 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26958 SDPCNSIYPYTPLVFFTVRT 20 SLAY-screened peptide P5308 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGACCCGTGTAACAGCATCTATCCGTATACCCCTCTTGTTTTCTTCACTGTTAGGACCTAA SDPCNSIYPYTPLVFFTVRT* -1.106 0.011697 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26959 NRDASYPADISAVSEYSGHS 20 SLAY-screened peptide P5309 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCGGGATGCGTCCTACCCCGCGGACATTTCGGCTGTTTCGGAGTACTCCGGGCACTCCTAA NRDASYPADISAVSEYSGHS* -1.106 0.00873 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26960 ASSIILDK 8 SLAY-screened peptide P5310 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTCTTCGATTATTTTGGATAAGTAGTATACGAGGACGTTTGCGACTTGCGTGGCGTCCTAA ASSIILDK*YTRTFATCVAS* -1.106 0.001997 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26961 NTSAWTPCDFATHSTLRPFP 20 SLAY-screened peptide P5311 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACGAGTGCCTGGACTCCTTGCGATTTTGCTACGCACTCCACCCTTCGGCCGTTCCCCTAA NTSAWTPCDFATHSTLRPFP* -1.106 0.002782 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26962 GTSWHSWHPIELTYGHCHLY 20 SLAY-screened peptide P5312 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGACCAGCTGGCACTCTTGGCACCCCATTGAGTTGACGTATGGTCATTGTCACTTGTATTAA GTSWHSWHPIELTYGHCHLY* -1.106 0.001316 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26963 CNWPPVSLYHTPFLYAVHLD 20 SLAY-screened peptide P5313 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAATTGGCCGCCCGTTTCGCTGTATCATACCCCTTTTCTTTACGCTGTTCATCTGGATTAA CNWPPVSLYHTPFLYAVHLD* -1.106 0.0001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26964 NRSTITSIHYMSSMPHPVIT 20 SLAY-screened peptide P5314 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCGGTCCACTATTACGAGCATCCATTACATGTCGTCTATGCCCCACCCGGTGATTACCTAA NRSTITSIHYMSSMPHPVIT* -1.106 0.013142 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26965 RYSIPNHLYVYLSNTSGRLR 20 SLAY-screened peptide P5315 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTATTCTATCCCTAACCATTTGTACGTTTACCTCTCTAATACTTCCGGTAGGCTTCGTTAA RYSIPNHLYVYLSNTSGRLR* -1.105 0.000183 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26966 GARYNSPHTWAPVNTLYAKN 20 SLAY-screened peptide P5316 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGGCTAGGTATAACTCTCCTCACACTTGGGCCCCTGTCAACACGCTTTATGCCAAGAACTAA GARYNSPHTWAPVNTLYAKN* -1.105 0.000027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26967 CLSRMPYFVYPRIFNYTLSTC 21 SLAY-screened peptide P5317 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTGTCCCGTATGCCTTATTTCGTTTATCCTCGTATTTTTAACTACACGTTGTCGACCTGC CLSRMPYFVYPRIFNYTLSTC -1.105 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26968 LYSVRTGTPQLTLMMPCDTY 20 SLAY-screened peptide P5318 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTATAGTGTGCGTACCGGCACCCCCCAGCTTACTCTTATGATGCCGTGCGACACGTACTAA LYSVRTGTPQLTLMMPCDTY* -1.104 0.047494 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26969 LSSSNASSPPCMWSQHMYFP 20 SLAY-screened peptide P5319 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCAGTTCCAGCAACGCTTCTTCGCCCCCCTGTATGTGGTCTCAGCACATGTACTTTCCTTAA LSSSNASSPPCMWSQHMYFP* -1.104 0.000085 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26970 LWVCLAVRHQSIVTIAQTWS 20 SLAY-screened peptide P5320 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTGGGTTTGCCTTGCTGTGCGTCACCAGTCCATTGTTACGATCGCGCAGACCTGGTCTTAA LWVCLAVRHQSIVTIAQTWS* -1.104 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26971 WRRALELGLHLAILYPLPIP 20 SLAY-screened peptide P5321 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGAGGAGGGCCCTCGAGCTTGGCCTCCATTTGGCGATTCTTTACCCTTTGCCTATCCCCTAA WRRALELGLHLAILYPLPIP* -1.103 0.0383 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26972 TSPAVSINNHFLTINHMTAM 20 SLAY-screened peptide P5322 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAGCCCTGCCGTCAGCATTAATAATCACTTTCTCACTATCAACCATATGACCGCCATGTAA TSPAVSINNHFLTINHMTAM* -1.103 0.015287 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26973 DDKRSEPHFTSNISRALLLAN 21 SLAY-screened peptide P5323 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGACAAGAGGTCCGAGCCCCACTTTACCTCGAACATTAGCCGAGCGCTACTCCTAGCTAAC DDKRSEPHFTSNISRALLLAN -1.103 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26974 ACPPARSWRMLPNALISSRV 20 SLAY-screened peptide P5324 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTGTCCCCCCGCCCGCTCTTGGCGCATGCTCCCCAACGCCTTGATTTCCTCGAGGGTGTAA ACPPARSWRMLPNALISSRV* -1.103 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26975 PHQGYFHHHCHPPRYQDYSL 20 SLAY-screened peptide P5325 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCACCAGGGCTATTTCCATCATCACTGCCACCCGCCTCGCTACCAGGATTACTCTTTGTAA PHQGYFHHHCHPPRYQDYSL* -1.103 0.000646 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26976 GPFGFWLRPCHYHPLFSDHL 20 SLAY-screened peptide P5326 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTCCGTTCGGGTTCTGGCTTCGCCCGTGCCACTACCACCCTCTTTTTTCCGATCACCTGTAA GPFGFWLRPCHYHPLFSDHL* -1.103 0.026346 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26977 PTSAYLPHEGRWSLRSSCLIN 21 SLAY-screened peptide P5327 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACTTCTGCTTATCTCCCCCATGAGGGTCGGTGGTCTCTTCGTTCGAGTTGCCTCATTAAC PTSAYLPHEGRWSLRSSCLIN -1.102 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26978 TPHQGTCYTNYQIPNYQSAS 20 SLAY-screened peptide P5328 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCGCACCAGGGTACCTGTTACACTAATTACCAGATCCCTAACTATCAGAGCGCGTCTTAA TPHQGTCYTNYQIPNYQSAS* -1.102 0.045084 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26979 ARMMNLLYQYSTDWLMCTDF 20 SLAY-screened peptide P5329 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCGTATGATGAACCTGCTCTACCAGTATTCGACCGATTGGTTGATGTGCACTGACTTCTAA ARMMNLLYQYSTDWLMCTDF* -1.102 0.047413 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26980 TSYHDLRRSLQSRCARIRLAL 21 SLAY-screened peptide P5330 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCTTACCACGATCTTAGGCGCTCCTTGCAGAGTCGGTGCGCTCGTATTCGGTTGGCATTA TSYHDLRRSLQSRCARIRLAL -1.102 0.016807 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26981 TSAPSPPIDLNSLCQTIALA 20 SLAY-screened peptide P5331 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGAGTGCCCCGAGCCCCCCTATCGATTTGAACAGCTTGTGCCAGACCATCGCCCTCGCTTAA TSAPSPPIDLNSLCQTIALA* -1.102 0.020753 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26982 FCPGNYRLLCSSCPTYAYAI 20 SLAY-screened peptide P5332 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTGTCCTGGTAATTATCGTTTGCTCTGTTCTTCGTGTCCCACGTATGCGTACGCCATTTAA FCPGNYRLLCSSCPTYAYAI* -1.102 0.010791 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26983 HTSRTLTSSSHRAVCLSSSS 20 SLAY-screened peptide P5333 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACGTCTAGGACCCTCACCTCCAGTAGTCACCGCGCTGTTTGCCTTTCCTCGTCTTCTTAA HTSRTLTSSSHRAVCLSSSS* -1.102 0.000689 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26984 PPTCAPGYLP 10 SLAY-screened peptide P5334 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCACCTGCGCCCCCGGTTACTTGCCCTAGACTCCCGCTGTTCCGCATACTGTTGGTTAA PPTCAPGYLP*TPAVPHTVG* -1.102 0.000781 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26985 PWLDHVPVTSEFCYCGCPEY 20 SLAY-screened peptide P5335 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGGTTGGATCATGTTCCCGTTACGTCTGAGTTCTGTTATTGCGGTTGTCCTGAGTACTAA PWLDHVPVTSEFCYCGCPEY* -1.101 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26986 QGPSLFRLLELFFSRVKEIK 20 SLAY-screened peptide P5336 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGGCCCGAGCCTTTTCCGCCTTCTTGAGCTGTTTTTCTCGAGGGTTAAGGAGATTAAGTAA QGPSLFRLLELFFSRVKEIK* -1.101 0.008371 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26987 YTCPTMPPYHLITLYSNRKL 20 SLAY-screened peptide P5337 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATACCTGTCCGACTATGCCTCCTTACCATCTTATCACTCTTTACTCCAATAGGAAGCTCTAA YTCPTMPPYHLITLYSNRKL* -1.101 0.025359 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26988 PTCNSPQHLVTTPRYLLIEY 20 SLAY-screened peptide P5338 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGACGTGCAACAGCCCTCAGCATTTGGTCACCACTCCTAGGTATCTTCTCATCGAGTATTAA PTCNSPQHLVTTPRYLLIEY* -1.101 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26989 HRTALLPNNDLTCLPNRITP 20 SLAY-screened peptide P5339 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCGGACGGCTCTTCTGCCTAACAATGATCTTACCTGCTTGCCGAACCGCATCACTCCGTAA HRTALLPNNDLTCLPNRITP* -1.1 0.000429 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26990 TASTSAFDVYTPSSPSIRES 20 SLAY-screened peptide P5340 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCTTCCACTTCGGCCTTTGATGTTTACACTCCTAGTAGCCCCTCGATCCGCGAGTCTTAA TASTSAFDVYTPSSPSIRES* -1.1 0.004574 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26991 SVRPK 5 SLAY-screened peptide P5341 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGTTCGCCCGAAGTAGCGTATCCCTACTTATCCGGGGTGGTTTACTGCCATCTTTCGTTAA SVRPK*RIPTYPGWFTAIFR* -1.1 0.000627 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26992 SNCRPGQPQRMTLVYV 16 SLAY-screened peptide P5342 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAACTGCCGCCCCGGCCAGCCGCAGCGGATGACCCTTGTGTACGTGTAGCGCCCCGCGTAA SNCRPGQPQRMTLVYV*RPA* -1.099 0.034273 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26993 SHRPGACSAILHFAYPHLIM 20 SLAY-screened peptide P5343 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCATCGCCCTGGTGCCTGTAGCGCTATCCTCCACTTTGCGTATCCTCATCTGATTATGTAA SHRPGACSAILHFAYPHLIM* -1.098 0.011321 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26994 PYLLMGWTSNDHDSSLRYDV 20 SLAY-screened peptide P5344 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTACCTGCTTATGGGGTGGACCAGTAACGATCATGATAGCTCTTTGAGGTACGATGTTTAA PYLLMGWTSNDHDSSLRYDV* -1.098 0.031443 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26995 LIDWGGIPVLCCNICTNLLL 20 SLAY-screened peptide P5345 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCATCGATTGGGGTGGTATTCCCGTTTTGTGCTGCAACATTTGCACGAACTTGCTGCTTTAA LIDWGGIPVLCCNICTNLLL* -1.098 0.001706 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26996 NRSCICANNYTSFLSFPSCF 20 SLAY-screened peptide P5346 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCGTTCTTGTATCTGCGCTAATAATTACACCTCGTTTCTGTCCTTTCCGTCCTGTTTTTAA NRSCICANNYTSFLSFPSCF* -1.098 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26997 LIRNLCRMTHHYFSPK 16 SLAY-screened peptide P5347 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGATCAGGAATCTTTGCCGTATGACCCACCACTACTTTAGTCCTAAGTAGTATGGTGTCTAA LIRNLCRMTHHYFSPK*YGV* -1.098 0.001709 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26998 PLLHLSPNMSEPTWTWRTVH 20 SLAY-screened peptide P5348 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTTCTTCATCTCAGTCCGAATATGAGCGAGCCGACGTGGACGTGGAGGACGGTCCACTAA PLLHLSPNMSEPTWTWRTVH* -1.098 0.001558 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP26999 ADVVGDRPASLRQLALTRSE 20 SLAY-screened peptide P5349 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGATGTGGTTGGCGATCGTCCTGCCTCCCTGCGGCAGCTTGCGCTCACGCGCAGTGAGTAA ADVVGDRPASLRQLALTRSE* -1.098 0.000808 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27000 DPITMSCRSSSVSWTNNDFD 20 SLAY-screened peptide P5350 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCGATTACTATGAGCTGTCGTTCGAGCTCTGTGTCCTGGACCAATAATGATTTTGATTAA DPITMSCRSSSVSWTNNDFD* -1.097 0.004217 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27001 APDVRATLPPKRAIYQAQP 19 SLAY-screened peptide P5351 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCTGACGTTCGCGCGACCCTCCCGCCCAAGCGTGCCATCTACCAGGCTCAGCCTTAGTAA APDVRATLPPKRAIYQAQP** -1.097 0.000278 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27002 HHSPAPGTWHELALFHVAGS 20 SLAY-screened peptide P5352 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCACTCCCCCGCCCCGGGCACTTGGCACGAGCTGGCCTTGTTTCACGTTGCCGGCTCCTAA HHSPAPGTWHELALFHVAGS* -1.097 0.000594 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27003 FTCSLLLRLMCLTFPRFFVQ 20 SLAY-screened peptide P5353 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACGTGTAGCTTGCTTCTCCGCCTCATGTGCCTTACGTTTCCCAGGTTTTTTGTTCAGTAA FTCSLLLRLMCLTFPRFFVQ* -1.097 0.000223 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27004 ASAFDMSNLCSHVPDLNNLI 20 SLAY-screened peptide P5354 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTCCGCTTTTGACATGTCTAATTTGTGTTCCCATGTCCCTGACCTTAATAACCTGATTTAA ASAFDMSNLCSHVPDLNNLI* -1.096 0.001606 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27005 SDSTRSHSRNLHWVRTTIEV 20 SLAY-screened peptide P5355 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGACAGCACGCGGTCCCATTCCCGGAATCTCCACTGGGTCCGCACGACCATTGAGGTGTAA SDSTRSHSRNLHWVRTTIEV* -1.096 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27006 LIRSRSTCPRGLWYGYTGYS 20 SLAY-screened peptide P5356 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTATTCGCTCCCGTAGTACTTGTCCTAGGGGTCTTTGGTACGGTTACACTGGCTACAGTTAA LIRSRSTCPRGLWYGYTGYS* -1.096 0.000125 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27007 CPSFNSSARHYFMLVRSMTPN 21 SLAY-screened peptide P5357 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCCAGCTTTAATTCTTCCGCCAGGCATTATTTTATGTTGGTGAGATCAATGACTCCTAAC CPSFNSSARHYFMLVRSMTPN -1.095 0.008245 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27008 LAPSIAISPLVGLPRRRRLAN 21 SLAY-screened peptide P5358 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCGCCGTCAATAGCAATTTCGCCATTGGTAGGACTTCCACGTAGAAGGCGTTTGGCTAAC LAPSIAISPLVGLPRRRRLAN -1.095 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27009 PCTYSTHLLYEPLLLTLLQ 19 SLAY-screened peptide P5359 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGCACGTACAGCACCCACCTTCTCTATGAGCCCCTCCTCCTCACCTTGTTGCAGTAGTAA PCTYSTHLLYEPLLLTLLQ** -1.095 0.043058 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27010 RVPGILKAPALCSRPPPVMH 20 SLAY-screened peptide P5360 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGTGCCTGGCATTCTGAAGGCCCCTGCGTTGTGCTCTCGTCCTCCTCCTGTTATGCACTAA RVPGILKAPALCSRPPPVMH* -1.095 0.002342 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27011 YGLDCCHCWQSGLYIAMNFS 20 SLAY-screened peptide P5361 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACGGTCTCGATTGCTGTCATTGCTGGCAGTCCGGTCTGTACATTGCTATGAATTTCAGTTAA YGLDCCHCWQSGLYIAMNFS* -1.095 0.0032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27012 VFYSDWNYPSLCGKFYPTSH 20 SLAY-screened peptide P5362 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTTTTACTCTGATTGGAACTATCCCAGCCTGTGCGGGAAGTTCTACCCGACGAGCCACTAA VFYSDWNYPSLCGKFYPTSH* -1.095 0.049147 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27013 AQPTPLAPKHCFPILMAMYN 20 SLAY-screened peptide P5363 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCAGCCTACTCCTCTTGCCCCCAAGCACTGTTTTCCTATCCTCATGGCTATGTACAACTAA AQPTPLAPKHCFPILMAMYN* -1.095 0.002081 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27014 PHCPVTRIAPVREGIFTPFL 20 SLAY-screened peptide P5364 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCACTGTCCTGTTACTCGCATCGCCCCCGTGCGGGAGGGCATCTTCACCCCGTTTTTGTAA PHCPVTRIAPVREGIFTPFL* -1.095 0.000155 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27015 CTCYFPAPSPLGLYSSPVIL 20 SLAY-screened peptide P5365 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACTTGCTACTTTCCCGCTCCGTCCCCTTTGGGGCTTTATTCGAGCCCTGTGATCCTCTAA CTCYFPAPSPLGLYSSPVIL* -1.095 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27016 PIPSPSWITYPVYVLAYDAH 20 SLAY-screened peptide P5366 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATTCCTTCTCCTTCCTGGATTACTTACCCTGTCTATGTCCTCGCCTATGACGCGCATTAA PIPSPSWITYPVYVLAYDAH* -1.094 0.012858 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27017 HMCNPSRPYNSQPTLSLIVL 20 SLAY-screened peptide P5367 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATGTGTAACCCTAGCCGGCCTTACAATAGCCAGCCCACGCTGAGCCTCATCGTTCTCTAA HMCNPSRPYNSQPTLSLIVL* -1.094 0.013771 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27018 GACHELLNHPTPSNLLVL 18 SLAY-screened peptide P5368 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGCTTGTCACGAGTTGCTGAACCATCCGACTCCGAGCAATTTGCTTGTTTTGTAGGTCTAA GACHELLNHPTPSNLLVL*V* -1.094 0.036846 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27019 TDTIKSAIANTHASNDPSAI 20 SLAY-screened peptide P5369 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGATACCATCAAGTCCGCTATTGCTAATACTCATGCCTCCAATGACCCGTCCGCCATTTAA TDTIKSAIANTHASNDPSAI* -1.094 0.028984 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27020 WPRAPPYTTRRCTTPAGDYP 20 SLAY-screened peptide P5370 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCCGCGCGCTCCGCCCTATACTACTCGTCGTTGTACCACGCCTGCGGGGGACTACCCGTAA WPRAPPYTTRRCTTPAGDYP* -1.094 0.001174 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27021 FDTKRVACCAMRWSSGHDPT 20 SLAY-screened peptide P5371 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGACACGAAGAGGGTTGCGTGTTGCGCTATGCGCTGGTCGAGCGGCCATGACCCTACGTAA FDTKRVACCAMRWSSGHDPT* -1.094 0.006548 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27022 APNVRGLKTCRLSSSTPYLP 20 SLAY-screened peptide P5372 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCCAACGTGCGCGGCCTTAAGACTTGTCGGCTCTCGTCGTCCACGCCTTATCTCCCTTAA APNVRGLKTCRLSSSTPYLP* -1.094 0.00311 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27023 RLDRLFCDPCATS 13 SLAY-screened peptide P5373 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCTTGACCGGCTCTTCTGCGACCCTTGCGCCACGAGTTAGTGGACTCCTAGTATTTGCTAA RLDRLFCDPCATS*WTPSIC* -1.093 0.023582 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27024 VAICSFIWLLFFKLRRNIDE 20 SLAY-screened peptide P5374 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGCCATTTGCTCCTTTATTTGGTTGCTTTTCTTTAAGCTGAGGAGGAATATCGATGAGTAA VAICSFIWLLFFKLRRNIDE* -1.093 0.048144 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27025 NDFLCVVRAPFWAHCNLWNC 20 SLAY-screened peptide P5375 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGACTTCCTCTGCGTCGTGAGGGCTCCCTTTTGGGCCCATTGCAATCTTTGGAATTGTTAA NDFLCVVRAPFWAHCNLWNC* -1.093 0.048182 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27026 LGVNNTRIFTISIP 14 SLAY-screened peptide P5376 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGGTGTCAATAACACGAGGATATTTACAATAAGTATTCCCTGAGCGGGGTGGTGTCGTAAC LGVNNTRIFTISIP*AGWCRN -1.093 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27027 ARPNTSPFMFHGWPCWHT 18 SLAY-screened peptide P5377 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCGGCCCAATACGTCTCCCTTTATGTTTCATGGTTGGCCCTGCTGGCACACCTAGACTTAA ARPNTSPFMFHGWPCWHT*T* -1.093 0.005291 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27028 CCPVHSSFKTCLSFTSPSYTI 21 SLAY-screened peptide P5378 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTTGCCCTGTTCACAGCTCGTTCAAGACCTGCCTTTCGTTTACGAGTCCTTCTTATACCATC CCPVHSSFKTCLSFTSPSYTI -1.093 0.009342 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27029 MSLIRRILRARLSYYSTRSS 20 SLAY-screened peptide P5379 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGAGCCTTATCCGCAGGATCTTGAGGGCTCGCCTCTCTTACTACTCTACGCGTAGCAGTTAA MSLIRRILRARLSYYSTRSS* -1.093 0.04677 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27030 VDPDTFHLDPLPLTLHYKDC 20 SLAY-screened peptide P5380 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGACCCGGACACCTTCCATCTCGACCCCCTTCCGCTGACTCTTCACTATAAGGATTGTTAA VDPDTFHLDPLPLTLHYKDC* -1.093 0.010717 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27031 HRRAGFTYGNASMRRLFYQA 20 SLAY-screened peptide P5381 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCGTCGTGCCGGCTTCACTTACGGGAACGCCAGCATGCGTCGGCTCTTTTACCAGGCGTAA HRRAGFTYGNASMRRLFYQA* -1.092 0.041031 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27032 HITLGAKLNTSPPYVQHMG 19 SLAY-screened peptide P5382 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACATCACGTTGGGCGCCAAGTTGAATACCAGCCCCCCCTACGTGCAGCATATGGGTTAGTAA HITLGAKLNTSPPYVQHMG** -1.092 0.03234 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27033 TKTDSLATAIKDDTHSRASP 20 SLAY-screened peptide P5383 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAAGACTGACTCCTTGGCTACCGCTATCAAGGACGATACTCATAGCCGCGCGTCTCCCTAA TKTDSLATAIKDDTHSRASP* -1.092 0.014856 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27034 PPAGNSDSDPLCRPNYNIRT 20 SLAY-screened peptide P5384 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCTGCGGGGAATTCGGATTCTGATCCTCTGTGTCGGCCGAACTATAACATTCGTACCTAA PPAGNSDSDPLCRPNYNIRT* -1.092 0.00273 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27035 CLFLCVVSTNTITLHDHSNP 20 SLAY-screened peptide P5385 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTCTTTCTCTGTGTGGTGAGCACGAACACTATCACCCTTCATGATCACTCCAATCCTTAA CLFLCVVSTNTITLHDHSNP* -1.092 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27036 RCNFCPRVLKLNPSVNNLSG 20 SLAY-screened peptide P5386 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGCAATTTTTGCCCCCGTGTTCTCAAGCTTAACCCCAGCGTTAACAACCTCTCGGGCTAA RCNFCPRVLKLNPSVNNLSG* -1.092 0.018121 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27037 DYPGLIVFALAPFYILSQYD 20 SLAY-screened peptide P5387 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTACCCCGGTTTGATCGTGTTTGCCCTGGCGCCGTTTTACATCCTTTCCCAGTATGACTAA DYPGLIVFALAPFYILSQYD* -1.092 0.006633 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27038 RTRVGIPPFLYRTPSLRIHS 20 SLAY-screened peptide P5388 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCACCCGCGTTGGTATTCCTCCGTTCCTGTACCGTACCCCTTCCCTTCGGATTCATTCCTAA RTRVGIPPFLYRTPSLRIHS* -1.092 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27039 FWHGLGLCNVYTI 13 SLAY-screened peptide P5389 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTTGGCACGGCCTCGGTTTGTGCAACGTTTATACTATCTAGAAGTGGCCTATTGACGATTAA FWHGLGLCNVYTI*KWPIDD* -1.091 0.014948 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27040 SVAPCTTCFPPTTDIHHNTI 20 SLAY-screened peptide P5390 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGTCGCCCCCTGCACGACTTGCTTTCCCCCCACTACTGATATTCATCATAACACCATCTAA SVAPCTTCFPPTTDIHHNTI* -1.091 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27041 GATTARYRPRISNWHTTYYF 20 SLAY-screened peptide P5391 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCGCGACGACTGCTCGTTACCGCCCGCGGATTTCTAACTGGCATACTACTTATTATTTCTAA GATTARYRPRISNWHTTYYF* -1.091 0.046399 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27042 ENNPFIDIRPTILDRLNLAN 20 SLAY-screened peptide P5392 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGAATAATCCTTTTATTGATATCCGCCCTACCATCCTTGACCGCCTCAATCTTGCGAACTAA ENNPFIDIRPTILDRLNLAN* -1.09 0.020731 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27043 PGYAWDTYYQHCSHSWKTYM 20 SLAY-screened peptide P5393 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGGTATGCGTGGGACACCTATTATCAGCATTGTTCCCATTCTTGGAAGACTTATATGTAA PGYAWDTYYQHCSHSWKTYM* -1.09 0.041707 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27044 HNPYSALSRVSNITYDYTLL 20 SLAY-screened peptide P5394 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAATCCTTATTCTGCGCTGAGCCGCGTTTCTAACATTACTTACGACTACACGTTGCTGTAA HNPYSALSRVSNITYDYTLL* -1.09 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27045 SRPLATDLPSIDPSTTFGSN 20 SLAY-screened peptide P5395 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCGGCCTCTTGCCACGGACTTGCCCTCGATCGACCCTTCTACCACTTTCGGTAGTAACTAA SRPLATDLPSIDPSTTFGSN* -1.09 0.021791 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27046 SVRLK 5 SLAY-screened peptide P5396 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGTGCGCTTGAAGTAGCTTACCGCCGACTCCGGTGCTCATACGGACACCGAGTGTATTTAA SVRLK*LTADSGAHTDTECI* -1.09 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27047 STTTPPFNPVHSVSDGVCVA 20 SLAY-screened peptide P5397 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTACCACCACTCCCCCCTTTAACCCCGTTCATAGCGTCAGCGACGGTGTGTGCGTTGCTTAA STTTPPFNPVHSVSDGVCVA* -1.09 0.002428 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27048 WVPPYNCIPHPDFFYIHSYH 20 SLAY-screened peptide P5398 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGGTCCCTCCGTACAACTGCATTCCCCACCCCGACTTTTTTTACATTCACAGCTATCACTAA WVPPYNCIPHPDFFYIHSYH* -1.09 0.007627 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27049 YHYPFPNVVTIVYVDLYCNV 20 SLAY-screened peptide P5399 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCACTATCCTTTCCCGAATGTGGTCACTATTGTGTACGTCGATCTTTATTGTAACGTTTAA YHYPFPNVVTIVYVDLYCNV* -1.09 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27050 LPTYVPLIPGVLNTLYYCII 20 SLAY-screened peptide P5400 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCCTACTTACGTCCCGCTTATTCCTGGTGTCCTCAATACCTTGTACTACTGCATCATTTAA LPTYVPLIPGVLNTLYYCII* -1.09 0.000855 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27051 GSSNDNLGRRRLVFNNSRSN 20 SLAY-screened peptide P5401 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTCCAGTAACGACAACCTCGGCCGTCGTCGCCTGGTGTTTAACAACTCCCGTAGCAACTAA GSSNDNLGRRRLVFNNSRSN* -1.089 0.036582 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27052 TPTVTGRCCRIMHIEGHSLT 20 SLAY-screened peptide P5402 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCGACCGTCACTGGGCGCTGTTGTCGGATTATGCATATCGAGGGTCACTCTCTCACGTAA TPTVTGRCCRIMHIEGHSLT* -1.089 0.000713 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27053 VSSGVGNPNFSDAAGVPTYT 20 SLAY-screened peptide P5403 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTAGCTCGGGCGTTGGTAACCCCAATTTTAGCGATGCGGCTGGCGTTCCTACGTACACGTAA VSSGVGNPNFSDAAGVPTYT* -1.089 0.011956 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27054 HNTYCNTPYSYHSL 14 SLAY-screened peptide P5404 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAATACGTATTGCAACACTCCCTATAGCTACCACAGTCTTTAGGTCGACCGTCATCTTTAA HNTYCNTPYSYHSL*VDRHL* -1.088 0.029526 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27055 PGHSGSPMQYNTL 13 SLAY-screened peptide P5405 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGGTCACAGTGGGTCCCCCATGCAGTACAATACGCTGTAGCTGTTGCCTAGGATGCATTAA PGHSGSPMQYNTL*LLPRMH* -1.088 0.006138 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27056 RLDPHMENIFWSPHHMFHHN 20 SLAY-screened peptide P5406 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTTGGATCCTCATATGGAGAACATCTTCTGGTCCCCGCACCACATGTTTCATCATAATTAA RLDPHMENIFWSPHHMFHHN* -1.088 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27057 EATPFYRSVPTLYARCRAPP 20 SLAY-screened peptide P5407 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGCTACTCCTTTCTATCGCAGCGTCCCTACCCTGTACGCTCGGTGCCGTGCGCCTCCCTAA EATPFYRSVPTLYARCRAPP* -1.088 0.007218 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27058 WMNYNYTGYASWYC 14 SLAY-screened peptide P5408 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGATGAATTATAATTACACGGGCTACGCCAGCTGGTATTGCTAGTGTGCTCACAAGATTTAA WMNYNYTGYASWYC*CAHKI* -1.088 0.011703 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27059 FVESDDRIIYTLAPMTSIVV 20 SLAY-screened peptide P5409 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGTGGAGTCCGACGACCGCATTATCTACACCCTTGCCCCCATGACTTCCATCGTTGTCTAA FVESDDRIIYTLAPMTSIVV* -1.087 0.002474 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27060 LTSPPNSPYPPLFWRPCLIF 20 SLAY-screened peptide P5410 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGACTTCGCCCCCGAACAGTCCCTATCCGCCTCTCTTCTGGCGCCCGTGTTTGATTTTCTAA LTSPPNSPYPPLFWRPCLIF* -1.087 0.00015 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27061 SCTHPAACTIGGYPWN 16 SLAY-screened peptide P5411 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTGCACTCACCCGGCCGCCTGTACCATTGGTGGTTACCCTTGGAACTAGTGGCACGCCTAA SCTHPAACTIGGYPWN*WHA* -1.086 0.000388 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27062 RDYPKYRFLNEYHILDSLTC 20 SLAY-screened peptide P5412 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGATTATCCTAAGTATCGGTTCTTGAATGAGTACCATATTCTTGACTCGTTGACTTGTTAA RDYPKYRFLNEYHILDSLTC* -1.086 0.015544 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27063 VLSFLSKLLCPSVHRTTNNL 20 SLAY-screened peptide P5413 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCTTAGCTTCCTTTCTAAGCTGCTGTGCCCCTCTGTGCATCGCACTACTAACAACCTTTAA VLSFLSKLLCPSVHRTTNNL* -1.085 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27064 GCGCATMSCLSLLVDTPLWF 20 SLAY-screened peptide P5414 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTGCGGCTGTGCCACGATGTCTTGCCTCTCTCTGTTGGTTGATACTCCGCTCTGGTTTTAA GCGCATMSCLSLLVDTPLWF* -1.085 0.006726 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27065 CAGLLWGFRSGNSGTYWYM 19 SLAY-screened peptide P5415 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCCGGCCTGCTGTGGGGTTTTCGGTCCGGGAATTCGGGGACCTATTGGTATATGTAGTAA CAGLLWGFRSGNSGTYWYM** -1.085 0.013194 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27066 HHSNESRG 8 SLAY-screened peptide P5416 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCACAGTAACGAGAGTCGCGGTTAGATGATTATTAAGCCCGACAGCAGGGATCGTATGTAA HHSNESRG*MIIKPDSRDRM* -1.085 0.000176 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27067 TSCYHMGLL 9 SLAY-screened peptide P5417 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTCCTGTTACCACATGGGTCTCCTTTAACGATGCTGGCGTCCCGGAGGTCTATCATACGTA TSCYHMGLL*RCWRPGGLSYV -1.085 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27068 PENTYNHPEYRTVIYSYI 18 SLAY-screened peptide P5418 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGAGAACACCTATAACCACCCTGAGTATCGTACCGTCATCTACAGCTATATCTAGAACTAA PENTYNHPEYRTVIYSYI*N* -1.085 0.012091 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27069 NPVPFYSPHLTDPHWILITF 20 SLAY-screened peptide P5419 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATCCCGTGCCCTTTTATTCTCCCCACCTCACCGATCCGCATTGGATTTTGATCACGTTTTAA NPVPFYSPHLTDPHWILITF* -1.084 0.000034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27070 MYFNPSCYTIV 11 SLAY-screened peptide P5420 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTACTTCAACCCTAGCTGTTATACTATTGTGTAGCTCATTTTTAACATTAAGTCTCAGTAA MYFNPSCYTIV*LIFNIKSQ* -1.084 0.00283 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27071 CHYDRNRTATTRASYQVTPK 20 SLAY-screened peptide P5421 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCACTACGACCGTAATCGCACTGCCACCACGAGGGCGTCCTATCAGGTTACTCCCAAGTAA CHYDRNRTATTRASYQVTPK* -1.084 0.007894 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27072 NLNTHYLTWYLTTNTQH 17 SLAY-screened peptide P5422 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTTGAACACCCATTACCTCACCTGGTACCTGACGACTAATACGCAGCATTAGATCCTCTAA NLNTHYLTWYLTTNTQH*IL* -1.084 0.000861 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27073 PQPKSGPSARSSTMRAKRRR 20 SLAY-screened peptide P5423 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCAGCCGAAGTCCGGTCCTAGCGCTCGCTCCTCCACGATGCGCGCTAAGCGTCGTAGGTAA PQPKSGPSARSSTMRAKRRR* -1.083 0.000029 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27074 NTSQVCSPRRASHSVVRDYVT 21 SLAY-screened peptide P5424 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACACGTCACAAGTGTGCTCACCGCGGCGCGCCTCACATTCCGTCGTACGCGACTACGTAACT NTSQVCSPRRASHSVVRDYVT -1.083 0.006851 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27075 QHPFVGPSIHTALWSVFIDP 20 SLAY-screened peptide P5425 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCACCCGTTCGTCGGGCCTAGTATTCACACCGCGCTCTGGAGCGTTTTTATCGACCCTTAA QHPFVGPSIHTALWSVFIDP* -1.083 0.022784 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27076 VLRRWLVRGVSCLCACPPPSN 21 SLAY-screened peptide P5426 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCTACGCCGATGGCTTGTAAGGGGAGTGTCTTGCCTGTGCGCTTGCCCACCCCCGTCTAAC VLRRWLVRGVSCLCACPPPSN -1.082 0.011328 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27077 PCDFLAVHATNKTSHHIFDY 20 SLAY-screened peptide P5427 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGTGATTTTCTTGCCGTCCACGCTACCAATAAGACCTCTCACCACATTTTTGATTACTAA PCDFLAVHATNKTSHHIFDY* -1.082 0.0313 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27078 RNDFTFAPTVCPAYSFVVLP 20 SLAY-screened peptide P5428 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAACGACTTTACTTTTGCTCCGACTGTGTGCCCCGCCTATTCGTTTGTTGTCTTGCCGTAA RNDFTFAPTVCPAYSFVVLP* -1.082 0.000689 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27079 HCLELSPNYSLIHFL 15 SLAY-screened peptide P5429 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGCCTTGAGCTCAGTCCCAATTATTCCCTTATTCATTTTCTTTAGAACTGGCGGACTTAA HCLELSPNYSLIHFL*NWRT* -1.082 0.043407 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27080 HCNNYFSHSYHYCTAFLYYV 20 SLAY-screened peptide P5430 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTGTAACAATTACTTTTCTCATTCTTATCACTACTGCACTGCCTTCTTGTACTACGTGTAA HCNNYFSHSYHYCTAFLYYV* -1.082 0.009018 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27081 TTPWPYDFRPCMLHYTHEAI 20 SLAY-screened peptide P5431 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACCCCCTGGCCTTACGATTTCCGGCCTTGTATGCTTCACTACACGCACGAGGCTATTTAA TTPWPYDFRPCMLHYTHEAI* -1.082 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27082 QWTCNY 6 SLAY-screened peptide P5432 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTGGACTTGTAATTACTAGGACATTCGTACTGTGAGCAGCACTGGTCTCAAGAGTCCGTAA QWTCNY*DIRTVSSTGLKSP* -1.082 0.042206 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27083 KTNRYLPTMFNFRCKDDAVV 20 SLAY-screened peptide P5433 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGACGAACCGGTATCTCCCTACGATGTTCAACTTCCGGTGTAAGGATGATGCGGTCGTCTAA KTNRYLPTMFNFRCKDDAVV* -1.082 0.040967 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27084 FSFFWVSNNFYYTHPNTAFG 20 SLAY-screened peptide P5434 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTAGCTTTTTTTGGGTGAGCAACAATTTCTATTACACTCACCCTAATACTGCTTTTGGGTAA FSFFWVSNNFYYTHPNTAFG* -1.082 0.001943 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27085 SMKPWFAEEPLRCIHYIT 18 SLAY-screened peptide P5435 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGATGAAGCCTTGGTTTGCCGAGGAGCCCCTCCGCTGCATTCACTATATTACCTAGACTTAA SMKPWFAEEPLRCIHYIT*T* -1.081 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27086 QNTGTCPSARMFSPISPFNA 20 SLAY-screened peptide P5436 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGAATACTGGCACGTGCCCCAGTGCGCGCATGTTCAGTCCGATTTCCCCCTTTAATGCGTAA QNTGTCPSARMFSPISPFNA* -1.081 0.015422 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27087 VPSSATFSRATRPPVTTGSR 20 SLAY-screened peptide P5437 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCCTCGAGTGCTACTTTCTCTAGGGCGACTCGCCCCCCGGTTACGACGGGCAGTCGCTAA VPSSATFSRATRPPVTTGSR* -1.081 0.011233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27088 DSSNRVYSSYWRPYSMTLSI 20 SLAY-screened peptide P5438 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATAGTTCCAATCGTGTCTATTCGTCCTACTGGCGTCCCTACTCTATGACCCTGAGCATCTAA DSSNRVYSSYWRPYSMTLSI* -1.081 0.003315 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27089 HSLDSTNGCTH 11 SLAY-screened peptide P5439 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCCCTTGATAGCACCAACGGTTGTACGCACTAGACTTATATTATCGACTTCTGTCTCTAA HSLDSTNGCTH*TYIIDFCL* -1.081 0.017778 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27090 TFSLKVFPAVLISTHINPRF 20 SLAY-screened peptide P5440 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTTCTCCCTCAAGGTTTTCCCGGCGGTTCTCATTTCGACGCATATCAACCCCCGGTTCTAA TFSLKVFPAVLISTHINPRF* -1.08 0.012251 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27091 SPTSVAYLPPVLYVRHSRSW 20 SLAY-screened peptide P5441 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCCACCTCCGTTGCCTACCTTCCTCCTGTTCTGTACGTTCGTCACTCTCGTAGTTGGTAA SPTSVAYLPPVLYVRHSRSW* -1.08 0.039467 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27092 YCWNPLFYTVGCATPSWLFVN 21 SLAY-screened peptide P5442 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGCTGGAACCCGCTCTTCTATACTGTCGGTTGTGCAACGCCCAGTTGGCTATTCGTTAAC YCWNPLFYTVGCATPSWLFVN -1.08 0.001087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27093 GFRCTDTSQGGSLTTSFLLCN 21 SLAY-screened peptide P5443 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTTCCGTTGCACGGACACCTCGCAAGGAGGGTCCCTAACAACTTCCTTCCTCCTATGTAAC GFRCTDTSQGGSLTTSFLLCN -1.08 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27094 CTCCYMPSRHFKAFTTIRSV 20 SLAY-screened peptide P5444 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACTTGCTGTTACATGCCCAGTAGGCACTTTAAGGCCTTCACCACTATTCGGAGTGTTTAA CTCCYMPSRHFKAFTTIRSV* -1.08 0.001935 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27095 PSLWGHWYWQPMILYSVA 18 SLAY-screened peptide P5445 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGAGCCTGTGGGGTCATTGGTACTGGCAGCCTATGATCTTGTACAGTGTTGCTTAGCATTAA PSLWGHWYWQPMILYSVA*H* -1.08 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27096 HPVLPADSDPERSQITCYIT 20 SLAY-screened peptide P5446 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCCTGTCCTTCCGGCCGATAGCGACCCTGAGCGGTCCCAGATCACCTGTTACATCACCTAA HPVLPADSDPERSQITCYIT* -1.079 0.027682 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27097 SLRASLHGNCLPILSSDRNA 20 SLAY-screened peptide P5447 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTTGCGTGCCTCGCTGCATGGGAACTGCCTTCCTATTCTCTCTAGTGACCGCAACGCGTAA SLRASLHGNCLPILSSDRNA* -1.079 0.006624 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27098 HNTCVAWLSYTRLE 14 SLAY-screened peptide P5448 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAATACCTGCGTCGCCTGGCTTTCCTATACTCGTCTTGAGTAGCTTACGGCGGTGGTTAAC HNTCVAWLSYTRLE*LTAVVN -1.079 0.012067 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27099 DLFRVSHY 8 SLAY-screened peptide P5449 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCTTTTTCGGGTTTCCCATTATTAGCACCCTTATACTGCGCCTCCGCGCCTTCGCTTTTAA DLFRVSHY*HPYTAPPRLRF* -1.079 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27100 IARNPARTLSRLRLSGPLLN 20 SLAY-screened peptide P5450 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCCCGCAATCCCGCCCGCACGTTGTCTCGGTTACGGCTTAGCGGTCCTCTACTTAACTGA IARNPARTLSRLRLSGPLLN* -1.079 0.000389 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27101 PRSWFCNYFHPRLYRMRRRR 20 SLAY-screened peptide P5451 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGCTCGTGGTTCTGCAACTACTTTCATCCGAGGCTTTATCGTATGCGTAGGCGGCGTTAA PRSWFCNYFHPRLYRMRRRR* -1.079 0.000625 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27102 CMHLNPYNYFYFVRYDKNGR 20 SLAY-screened peptide P5452 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCATGCACCTTAACCCCTACAATTACTTTTATTTCGTTAGGTACGATAAGAATGGTCGTTAA CMHLNPYNYFYFVRYDKNGR* -1.079 0.001449 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27103 TLCPTVWDVI 10 SLAY-screened peptide P5453 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCTCTGTCCTACGGTTTGGGACGTTATCTAGTCTAAGTGGAATACTCGGGACATGGGCTAA TLCPTVWDVI*SKWNTRDMG* -1.078 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27104 HNPCFRALVFVLCVLMTPVK 20 SLAY-screened peptide P5454 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAACCCTTGTTTCCGGGCCCTTGTTTTTGTTCTTTGCGTCCTTATGACCCCCGTCAAGTAA HNPCFRALVFVLCVLMTPVK* -1.078 0.000673 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27105 SYIPFSCPWLYSDLSTSQFL 20 SLAY-screened peptide P5455 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTACATCCCGTTTAGCTGTCCTTGGCTCTACAGCGACCTGAGCACTTCCCAGTTTCTCTAA SYIPFSCPWLYSDLSTSQFL* -1.078 0.040435 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27106 SANNLIFHCPYQFLPFMPLL 20 SLAY-screened peptide P5456 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGCTAACAACCTCATTTTCCATTGTCCCTACCAGTTTCTGCCCTTCATGCCGCTCTTGTAA SANNLIFHCPYQFLPFMPLL* -1.077 0.039996 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27107 SGSFAPSCYSPHYNARKVHN 20 SLAY-screened peptide P5457 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGGTTCCTTTGCCCCGTCCTGTTACAGTCCCCATTACAACGCTCGGAAGGTTCATAACTAA SGSFAPSCYSPHYNARKVHN* -1.077 0.000406 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27108 AHFENCGSGWVYSPSNLYLI 20 SLAY-screened peptide P5458 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCATTTTGAGAATTGCGGTTCGGGTTGGGTTTACTCTCCTTCCAACCTCTACCTTATCTAA AHFENCGSGWVYSPSNLYLI* -1.077 0.021338 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27109 AISDYPNFFWSCYIL 15 SLAY-screened peptide P5459 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCATTTCCGATTACCCTAACTTTTTTTGGAGCTGTTACATTCTCTAGTTTTTTCGCTATTAA AISDYPNFFWSCYIL*FFRY* -1.077 0.000017 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27110 GRGTVATCYNPTGYEYL 17 SLAY-screened peptide P5460 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCGCGGTACCGTCGCGACTTGTTATAACCCCACTGGGTATGAGTACCTGTAACTGAGTAAG GRGTVATCYNPTGYEYL*LSK -1.077 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27111 HSYSCQDPGSEFTKIHQWQA 20 SLAY-screened peptide P5461 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCGTATTCCTGTCAGGACCCGGGTTCCGAGTTCACTAAGATCCACCAGTGGCAGGCCTAA HSYSCQDPGSEFTKIHQWQA* -1.077 0.001952 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27112 DPRVANRGRQRLMEHH 16 SLAY-screened peptide P5462 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCGAGGGTCGCGAATCGCGGCCGCCAGCGCCTGATGGAGCATCACTAGGACACTAAGTAA DPRVANRGRQRLMEHH*DTK* -1.076 0.010508 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27113 CRAQGAPVVICRGSSCNIMT 20 SLAY-screened peptide P5463 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGGGCCCAGGGGGCTCCGGTCGTTATCTGCCGTGGCTCCAGCTGCAACATTATGACCTAA CRAQGAPVVICRGSSCNIMT* -1.076 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27114 PRADAFTFAGSGPKVVTIIS 20 SLAY-screened peptide P5464 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGTGCCGACGCGTTTACCTTTGCCGGGTCTGGTCCTAAGGTTGTTACGATTATTTCTTAA PRADAFTFAGSGPKVVTIIS* -1.076 0.009341 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27115 LPDDFYHNVLICVKRDVNYT 20 SLAY-screened peptide P5465 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCCTGATGATTTCTACCATAACGTCCTGATCTGCGTGAAGCGTGATGTTAACTACACTTAA LPDDFYHNVLICVKRDVNYT* -1.076 0.026804 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27116 PADGVDKAYWCGPVFCVWYL 20 SLAY-screened peptide P5466 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCTGACGGCGTCGACAAAGCTTACTGGTGTGGGCCCGTCTTTTGTGTGTGGTATTTGTAA PADGVDKAYWCGPVFCVWYL* -1.076 0.001026 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27117 QFGRVAIIISRGRGNPNIVG 20 SLAY-screened peptide P5467 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTTTGGTAGGGTTGCTATTATCATCTCTCGCGGCCGTGGCAATCCCAACATTGTGGGCTAA QFGRVAIIISRGRGNPNIVG* -1.075 0.000158 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27118 DDANSRHEPPHYYCAPHILL 20 SLAY-screened peptide P5468 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACGATGCCAATTCGCGCCATGAGCCTCCTCACTACTATTGTGCGCCTCACATTCTCCTTTAA DDANSRHEPPHYYCAPHILL* -1.075 0.000499 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27119 YLDNSNDKVSLSHSTNISNN 20 SLAY-screened peptide P5469 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTCGATAATTCTAATGACAAGGTTTCGCTTTCGCATTCCACCAACATCAGTAACAACTAA YLDNSNDKVSLSHSTNISNN* -1.075 0.001001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27120 ILRYFVNWLKAHTVRPVPYV 20 SLAY-screened peptide P5470 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCTTCGTTACTTCGTTAACTGGTTGAAGGCCCACACTGTTCGGCCCGTGCCGTATGTCTAA ILRYFVNWLKAHTVRPVPYV* -1.075 0.005062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27121 NSPVAKFSPIYPSMLLA 17 SLAY-screened peptide P5471 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCCCCCGTTGCTAAGTTCAGTCCTATCTACCCTAGCATGCTGCTTGCCTAGATGTGTTAA NSPVAKFSPIYPSMLLA*MC* -1.074 0.000025 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27122 SRCLEMASGIIPFAFMNHNG 20 SLAY-screened peptide P5472 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGTTGTCTGGAGATGGCCTCCGGCATCATTCCTTTTGCTTTTATGAATCACAACGGTTAA SRCLEMASGIIPFAFMNHNG* -1.074 0.043974 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27123 WFPCSWGNNHPYNYFRRSDL 20 SLAY-screened peptide P5473 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTTCCCGTGTTCCTGGGGTAATAATCACCCTTACAATTATTTTCGTCGTTCGGACCTGTAA WFPCSWGNNHPYNYFRRSDL* -1.074 0.023274 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27124 PPIDCKQLLPMWAYKLIKSN 20 SLAY-screened peptide P5474 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCATTGACTGCAAGCAGCTCCTCCCTATGTGGGCCTATAAGTTGATCAAGAGCAATTAA PPIDCKQLLPMWAYKLIKSN* -1.074 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27125 LSAPSPSYEPLTFTPTCYPD 20 SLAY-screened peptide P5475 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCGGCCCCGTCGCCGTCGTATGAGCCCTTGACTTTTACTCCTACTTGTTACCCTGATTAA LSAPSPSYEPLTFTPTCYPD* -1.074 0.001019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27126 SSMTPLWHAPLWCHLSQFIV 20 SLAY-screened peptide P5476 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTCTATGACCCCTCTCTGGCATGCCCCCTTGTGGTGCCACCTGAGCCAGTTTATTGTTTAA SSMTPLWHAPLWCHLSQFIV* -1.073 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27127 FRALRHLLNSCFNTDHQLRP 20 SLAY-screened peptide P5477 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCGGGCCCTTCGTCACTTGCTTAACAGCTGTTTCAATACTGACCACCAGCTTAGGCCCTAA FRALRHLLNSCFNTDHQLRP* -1.073 0.005856 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27128 AGFIHPYFPRLIVATFNDNY 20 SLAY-screened peptide P5478 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGGCTTTATCCATCCCTATTTTCCCAGGCTTATTGTCGCTACCTTTAACGACAATTACTAA AGFIHPYFPRLIVATFNDNY* -1.073 0.042935 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27129 PMRIKCIGDSTALFEKNKSC 20 SLAY-screened peptide P5479 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATGCGTATTAAGTGCATCGGGGATAGCACCGCGCTTTTTGAGAAGAATAAGTCTTGCTAA PMRIKCIGDSTALFEKNKSC* -1.073 0.000112 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27130 PAILIYRPWCLYVDLPWP 18 SLAY-screened peptide P5480 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGCTATCCTGATCTACCGCCCCTGGTGTCTGTACGTTGACTTGCCGTGGCCCTAGCTGTAA PAILIYRPWCLYVDLPWP*L* -1.073 0.007841 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27131 LHTYLLNSTRCWRQVSFFYA 20 SLAY-screened peptide P5481 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCACACTTATCTCCTCAATTCTACTCGGTGCTGGCGTCAGGTGTCTTTTTTCTATGCCTAA LHTYLLNSTRCWRQVSFFYA* -1.073 0.01233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27132 TFTNKISFCTIITIRIVFTFN 21 SLAY-screened peptide P5482 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTTCACCAATAAGATATCTTTCTGCACTATCATCACGATACGCATAGTTTTCACCTTTAAC TFTNKISFCTIITIRIVFTFN -1.072 0.00523 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27133 PLARPIHFDTFQCYGSYSEP 20 SLAY-screened peptide P5483 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTCGCTCGGCCTATTCATTTTGATACGTTTCAGTGTTATGGCTCCTACTCTGAGCCCTAA PLARPIHFDTFQCYGSYSEP* -1.072 0.013613 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27134 CIVDMATSYSNHFRTWTM 18 SLAY-screened peptide P5484 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTATCGTTGACATGGCCACTAGCTACTCCAATCACTTTCGCACCTGGACTATGTAGACTTAA CIVDMATSYSNHFRTWTM*T* -1.072 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27135 PHLRTCNDLPILKPWRILSA 20 SLAY-screened peptide P5485 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCACCTTCGTACCTGCAATGATCTTCCCATCTTGAAGCCCTGGCGCATCCTTAGTGCCTAA PHLRTCNDLPILKPWRILSA* -1.072 0.002376 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27136 GYCLLPTFSLACLTLMLPMI 20 SLAY-screened peptide P5486 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTACTGCTTGCTTCCTACCTTTTCTCTGGCGTGTTTGACGCTGATGCTTCCTATGATCTAA GYCLLPTFSLACLTLMLPMI* -1.072 0.004808 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27137 HCVRLDDPGIPLWVCTAFPG 20 SLAY-screened peptide P5487 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTGCGTCAGGCTTGATGACCCCGGTATCCCCCTTTGGGTCTGCACCGCGTTCCCGGGTTAA HCVRLDDPGIPLWVCTAFPG* -1.072 0.001182 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27138 INPSISYDVISLLLLLNFFL 20 SLAY-screened peptide P5488 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAATCCCAGCATTAGTTACGATGTCATTAGTCTGCTCCTCCTGCTTAACTTTTTTCTTTAA INPSISYDVISLLLLLNFFL* -1.071 0.000033 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27139 GHSYDSWRYGILPIQTLFFQ 20 SLAY-screened peptide P5489 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCCATAGTTATGATTCTTGGCGGTACGGTATTCTGCCCATCCAGACCCTGTTTTTTCAGTAA GHSYDSWRYGILPIQTLFFQ* -1.071 0.018559 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27140 SAHDSCPRNFYLSHMAPHRF 20 SLAY-screened peptide P5490 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCTCACGATAGCTGCCCGCGCAACTTCTACTTGAGTCACATGGCTCCTCATCGCTTTTAA SAHDSCPRNFYLSHMAPHRF* -1.071 0.001688 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27141 SPWRCIRSCLHDIFFSHSHS 20 SLAY-screened peptide P5491 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCTTGGAGGTGCATCAGGTCCTGCCTCCACGATATCTTTTTTTCCCATTCGCACTCCTAA SPWRCIRSCLHDIFFSHSHS* -1.07 0.005207 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27142 ANVPYSPIMFPGSSLRSSNF 20 SLAY-screened peptide P5492 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGAACGTCCCCTATTCGCCTATTATGTTTCCTGGCTCTTCTCTTCGTTCCTCCAATTTTTAA ANVPYSPIMFPGSSLRSSNF* -1.07 0.003726 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27143 QHTYQMTDRHNRGPPVILSH 20 SLAY-screened peptide P5493 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCACACTTACCAGATGACCGATCGGCATAACCGCGGCCCTCCGGTTATCCTGAGCCACTAA QHTYQMTDRHNRGPPVILSH* -1.07 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27144 HLPCYPYFFRTRSPQMYTPT 20 SLAY-screened peptide P5494 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTTCCCTGTTACCCCTATTTCTTCCGGACGCGCAGCCCCCAGATGTATACTCCCACTTAA HLPCYPYFFRTRSPQMYTPT* -1.07 0.030165 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27145 ASPEDNVNASKSSRLIIIIN 20 SLAY-screened peptide P5495 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCAGTCCTGAGGACAATGTGAACGCTTCCAAGAGCTCTCGACTCATAATCATAATTAACTGA ASPEDNVNASKSSRLIIIIN* -1.07 0.037519 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27146 GFHRRSDSFTNMTSRLASSFN 21 SLAY-screened peptide P5496 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCTTCCATCGTCGTTCCGACAGTTTTACTAACATGACTAGTCGTCTGGCTTCCTCGTTTAAC GFHRRSDSFTNMTSRLASSFN -1.07 0.012038 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27147 NRTGNELRNFSLCNHHDWVL 20 SLAY-screened peptide P5497 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCGTACGGGTAACGAGCTGCGCAACTTCTCGCTCTGTAACCATCACGATTGGGTCTTGTAA NRTGNELRNFSLCNHHDWVL* -1.069 0.005206 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27148 CDLSLSSWTIAAN 13 SLAY-screened peptide P5498 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGATTTGTCCTTGTCCAGTTGGACGATTGCGGCTAACTAGTCCTACTTGATTAATACGTAA CDLSLSSWTIAAN*SYLINT* -1.069 0.003111 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27149 WQPPCWSFQSWNPVTSPYLP 20 SLAY-screened peptide P5499 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCAGCCGCCCTGTTGGTCTTTCCAGAGTTGGAACCCCGTTACGTCCCCCTATCTTCCTTAA WQPPCWSFQSWNPVTSPYLP* -1.069 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27150 SRRLPHWHDCSTFYLNDHLY 20 SLAY-screened peptide P5500 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCGTCGGTTGCCCCATTGGCACGACTGCAGTACTTTTTATCTCAACGATCATTTGTACTAA SRRLPHWHDCSTFYLNDHLY* -1.069 0.000361 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27151 KYVYTTNTTH 10 SLAY-screened peptide P5501 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTACGTTTACACGACCAATACCACCCATTAGCATCACAGCACGCTTTATAGGTACCCGTAA KYVYTTNTTH*HHSTLYRYP* -1.069 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27152 PTTYCTLLFT 10 SLAY-screened peptide P5502 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACTACCTATTGCACGCTGCTCTTTACGTAGAGTTACCGGGATCTTAGCGCTAACTTGTAA PTTYCTLLFT*SYRDLSANL* -1.069 0.005397 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27153 PFSPSPTRLYAFHGFSRLTC 20 SLAY-screened peptide P5503 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTTTCGCCGTCGCCTACCCGGCTCTACGCTTTTCATGGCTTCTCTCGTCTCACCTGCTAA PFSPSPTRLYAFHGFSRLTC* -1.069 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27154 YFCTPIDGESKRISYHYLFH 20 SLAY-screened peptide P5504 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTTCTGCACTCCCATTGATGGGGAGTCTAAGAGGATTTCCTACCATTATTTGTTTCATTAA YFCTPIDGESKRISYHYLFH* -1.068 0.028752 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27155 AYPLHYDVHYNYPCSYTKFG 20 SLAY-screened peptide P5505 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTATCCTCTCCACTACGACGTTCATTACAACTATCCGTGCAGTTATACTAAGTTTGGGTAA AYPLHYDVHYNYPCSYTKFG* -1.068 0.0027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27156 VTPFPVPPHLGPWTVPMRVF 20 SLAY-screened peptide P5506 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCACCCCGTTCCCGGTCCCTCCTCACCTCGGTCCTTGGACTGTGCCGATGCGTGTCTTTTAA VTPFPVPPHLGPWTVPMRVF* -1.068 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27157 CHGPPSMPPWFVLTYQRAND 20 SLAY-screened peptide P5507 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCATGGGCCCCCTTCCATGCCGCCTTGGTTTGTTCTCACCTATCAGCGGGCGAATGATTAA CHGPPSMPPWFVLTYQRAND* -1.068 0.002071 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27158 FTASLSLLSLNHSSPYLHVH 20 SLAY-screened peptide P5508 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACGGCGTCGCTCTCCCTCCTCTCTCTGAATCATAGCTCGCCCTATCTTCACGTCCATTAA FTASLSLLSLNHSSPYLHVH* -1.068 0.012631 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27159 VSVLHFSWSRLTTLSITLIN 20 SLAY-screened peptide P5509 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCAGCGTCCTGCATTTCTCCTGGAGTCGCCTTACGACCCTCTCGATCACGCTGATCAATTAA VSVLHFSWSRLTTLSITLIN* -1.068 0.026879 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27160 RPSTSHPWLSTGLLWRTYLL 20 SLAY-screened peptide P5510 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGCCCTCCACGTCCCATCCCTGGCTCTCCACGGGTTTGTTGTGGCGTACGTATCTGCTGTAA RPSTSHPWLSTGLLWRTYLL* -1.067 0.015774 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27161 FTPCRPLCDLDIPARNRCPW 20 SLAY-screened peptide P5511 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACCCCCTGCCGCCCGCTCTGTGATCTCGACATTCCGGCCCGCAACCGGTGTCCTTGGTAA FTPCRPLCDLDIPARNRCPW* -1.067 0.029556 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27162 YRSGHGVTAYTLGLSQVHSS 20 SLAY-screened peptide P5512 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCGTAGCGGTCACGGCGTGACCGCGTACACCTTGGGGCTTTCTCAGGTCCATAGTTCTTAA YRSGHGVTAYTLGLSQVHSS* -1.067 0.011261 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27163 PDPRLFFRKLPFDYSWTLLA 20 SLAY-screened peptide P5513 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGATCCTCGTCTGTTTTTCCGGAAGCTGCCGTTTGATTATTCTTGGACGCTGCTGGCTTAA PDPRLFFRKLPFDYSWTLLA* -1.067 0.001298 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27164 CTYHLSTTSRSIPMMLTSIA 20 SLAY-screened peptide P5514 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACTTACCACTTGTCTACCACGAGTCGGTCCATCCCTATGATGCTCACGTCCATCGCCTAA CTYHLSTTSRSIPMMLTSIA* -1.067 0.040637 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27165 CKLFPSLL 8 SLAY-screened peptide P5515 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAAGCTTTTTCCTAGTCTGCTCTAGTCTCGTCAGCACCGTCGCCGTGTGAAGCCCCTGTAA CKLFPSLL*SRQHRRRVKPL* -1.067 0.003349 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27166 GTSTMDPANHLPHSINPLYP 20 SLAY-screened peptide P5516 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCACCTCGACGATGGACCCCGCTAACCATCTCCCTCACTCTATCAATCCTCTGTATCCCTAA GTSTMDPANHLPHSINPLYP* -1.067 0.008361 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27167 FSPGCLFLACITDCNSGLSG 20 SLAY-screened peptide P5517 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCTCCCCCGGGTGCCTTTTTCTGGCCTGCATTACGGATTGTAACAGTGGTTTGTCCGGTTAA FSPGCLFLACITDCNSGLSG* -1.066 0.000082 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27168 NDAEKGSPVFHCPVYI 16 SLAY-screened peptide P5518 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATGATGCCGAGAAGGGTAGCCCCGTTTTTCATTGCCCTGTTTACATCTAGCACGCTCCCTAA NDAEKGSPVFHCPVYI*HAP* -1.066 0.000052 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27169 ATLYYQPCYFPASSYFTEHR 20 SLAY-screened peptide P5519 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTACGCTCTACTATCAGCCTTGTTATTTTCCCGCTTCTAGTTACTTCACTGAGCATCGTTAA ATLYYQPCYFPASSYFTEHR* -1.066 0.035271 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27170 LTIAPLSGCWDSFHVKSYYN 20 SLAY-screened peptide P5520 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCACTATCGCGCCTTTGAGCGGTTGTTGGGACAGTTTTCACGTTAAGTCGTACTATAATTAA LTIAPLSGCWDSFHVKSYYN* -1.066 0.020983 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27171 RPN 3 SLAY-screened peptide P5521 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCCAACTAGCGTACTACCTCCAGTTATCTCAACTAGCTGGCGACCTGCCTTCAGCCGTAA RPN*RTTSSYLN*LATCLQP* -1.066 0.000199 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27172 CDSSVHMTIPNDSTPNMLLM 20 SLAY-screened peptide P5522 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGATTCGAGTGTGCACATGACGATTCCTAACGACTCGACTCCGAATATGCTCTTGATGTAA CDSSVHMTIPNDSTPNMLLM* -1.066 0.000251 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27173 HNQYGSSHS 9 SLAY-screened peptide P5523 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAATCAGTACGGTAGTTCTCATAGCTAGGCCCGCTCCGCCCGCGAGCCGCTCCCTCTTTAA HNQYGSSHS*ARSAREPLPL* -1.066 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27174 RTHTHATLNSDDSHLCVLINT 21 SLAY-screened peptide P5524 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTACTCACACCCACGCTACTTTGAACAGTGATGACTCCCACCTGTGTGTCTTGATCAACACT RTHTHATLNSDDSHLCVLINT -1.066 0.04411 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27175 SPTRESTQICLYTI 14 SLAY-screened peptide P5525 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCCTACGCGCGAGTCGACCCAGATTTGCCTTTACACCATCTAGCACGTCACGCATACCTAA SPTRESTQICLYTI*HVTHT* -1.066 0.001581 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27176 CTHFEHAWTHMSASTDTASL 20 SLAY-screened peptide P5526 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCACCCATTTTGAGCATGCCTGGACTCATATGTCGGCCAGCACGGATACCGCCAGCCTCTAA CTHFEHAWTHMSASTDTASL* -1.065 0.002789 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27177 AVHPSPDLIAHVVYETSDQS 20 SLAY-screened peptide P5527 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGTGCACCCCAGTCCCGACCTGATCGCGCATGTTGTCTATGAGACGTCCGACCAGAGTTAA AVHPSPDLIAHVVYETSDQS* -1.065 0.001802 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27178 SLRSNVMTNGIQLVHRTFNT 20 SLAY-screened peptide P5528 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCTGCGTTCCAACGTTATGACCAATGGTATTCAGCTTGTGCATCGTACTTTTAATACCTAA SLRSNVMTNGIQLVHRTFNT* -1.065 0.010053 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27179 NMPYCNIICDNQFILIRQRTN 21 SLAY-screened peptide P5529 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATATGCCCTACTGTAATATTATTTGCGACAATCAGTTCATCTTGATCCGTCAAAGAACTAAC NMPYCNIICDNQFILIRQRTN -1.065 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27180 TMWAIPSTLRRWLSHKKSDS 20 SLAY-screened peptide P5530 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGATGTGGGCTATTCCTTCCACTCTGAGGCGTTGGCTGTCTCATAAGAAGTCGGATTCCTAA TMWAIPSTLRRWLSHKKSDS* -1.064 0.022879 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27181 IAEVFINHDINYHRCLHNVL 20 SLAY-screened peptide P5531 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCCGAGGTTTTCATCAACCACGACATTAACTATCATCGTTGCCTCCATAATGTTCTGTAA IAEVFINHDINYHRCLHNVL* -1.064 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27182 NLITSLSAQLYSRVPSSTIPN 21 SLAY-screened peptide P5532 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCTTATCACTTCTTTGTCTGCCCAGCTCTACAGTAGGGTTCCGAGCAGTACGATTCCTAAC NLITSLSAQLYSRVPSSTIPN -1.064 0.001378 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27183 TPLHFSFTGTHIASLILDYK 20 SLAY-screened peptide P5533 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCCCCTGCACTTCAGTTTTACCGGCACGCACATCGCCTCTTTGATTCTTGATTACAAGTAA TPLHFSFTGTHIASLILDYK* -1.064 0.014128 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27184 NLYCSRFIIVSICIIPPTRVN 21 SLAY-screened peptide P5534 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTTGTATTGTTCAAGGTTTATAATTGTATCTATTTGCATCATTCCCCCTACTAGAGTTAAC NLYCSRFIIVSICIIPPTRVN -1.064 0.010404 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27185 DQLTRSLPHPTFFHSNIMHN 20 SLAY-screened peptide P5535 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCAGCTCACGAGGTCGCTCCCGCATCCTACTTTCTTCCACTCGAACATTATGCACAATTAA DQLTRSLPHPTFFHSNIMHN* -1.064 0.00051 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27186 RLLAHLMSQNSSRPKDQLST 20 SLAY-screened peptide P5536 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCTTCTGGCCCACCTTATGTCCCAGAATAGCTCCCGTCCTAAGGATCAGCTCAGTACCTAA RLLAHLMSQNSSRPKDQLST* -1.063 0.012386 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27187 VRYNKSHVFPVRLMIRNHIN 20 SLAY-screened peptide P5537 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCGCTACAATAAGAGTCATGTGTTTCCTGTCCGTCTTATGATCAGGAATCACATTAATTAA VRYNKSHVFPVRLMIRNHIN* -1.063 0.011904 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27188 SPLPRNTHHIPWLINR 16 SLAY-screened peptide P5538 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCGTTGCCTCGTAATACCCATCATATCCCTTGGCTGATTAACCGGTAGATCGACCTGTAA SPLPRNTHHIPWLINR*IDL* -1.063 0.000623 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27189 SLACLVTNSVFFRRYKSKSCN 21 SLAY-screened peptide P5539 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCTCGCTTGCCTTGTCACCAATAGCGTGTTTTTCCGGAGGTATAAGAGCAAGAGTTGTAAC SLACLVTNSVFFRRYKSKSCN -1.062 0.000046 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27190 LLCNRHLVGCNSSDGITRHI 20 SLAY-screened peptide P5540 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTGTGCAACCGTCACCTTGTGGGTTGCAACAGCAGTGACGGTATCACCCGGCATATTTAA LLCNRHLVGCNSSDGITRHI* -1.062 0.016676 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27191 IQCMSPVVVPLILFTILGCLN 21 SLAY-screened peptide P5541 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCAGTGCATGTCACCAGTTGTGGTGCCCCTTATACTTTTTACAATCCTAGGCTGCCTTAAC IQCMSPVVVPLILFTILGCLN -1.062 0.021457 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27192 NCTYLPI 7 SLAY-screened peptide P5542 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGCACTTATCTGCCGATCTAGAGGCGCAGCTAGCTTGTCAACCTTGTGCCCTCCCGGTAA NCTYLPI*RRS*LVNLVPSR* -1.062 0.000023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27193 PLDQNRLPGHYRFCPIYKCK 20 SLAY-screened peptide P5543 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTTGACCAGAATCGCCTTCCCGGTCACTACCGGTTTTGCCCGATTTATAAGTGTAAGTAA PLDQNRLPGHYRFCPIYKCK* -1.062 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27194 PCRWLPSSNTRSVTSTSFAP 20 SLAY-screened peptide P5544 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGTCGTTGGCTCCCGTCCTCCAACACTAGGTCTGTTACCTCCACTAGTTTTGCCCCGTAA PCRWLPSSNTRSVTSTSFAP* -1.062 0.025396 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27195 RIIQRIYLSLLALIHSNFIPN 21 SLAY-screened peptide P5545 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATTATCCAGCGCATTTACTTGAGCCTCCTCGCCCTCATTCATAGTAATTTCATACCTAAC RIIQRIYLSLLALIHSNFIPN -1.061 0.022044 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27196 KWNRTILHVRNSRSSTESTG 20 SLAY-screened peptide P5546 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTGGAATAGGACCATCCTCCATGTTCGCAATTCTAGGAGTAGTACTGAGTCCACTGGTTAA KWNRTILHVRNSRSSTESTG* -1.061 0.000155 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27197 HMTCRDTILTPSLV 14 SLAY-screened peptide P5547 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATATGACCTGTCGGGATACTATCCTGACCCCGTCTTTGGTCTAGCCCGTCCCCTATCGGTAA HMTCRDTILTPSLV*PVPYR* -1.061 0.000289 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27198 TGDVTAPRPNGFGLQYFIYI 20 SLAY-screened peptide P5548 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGGGGATGTTACCGCGCCCAGGCCTAATGGTTTCGGTCTTCAGTACTTTATTTACATTTAA TGDVTAPRPNGFGLQYFIYI* -1.061 0.031849 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27199 ELSCRTPVHCPLYPGLIHRC 20 SLAY-screened peptide P5549 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCTTTCCTGTCGCACCCCCGTGCATTGCCCCCTGTACCCGGGCCTCATCCACCGTTGCTAA ELSCRTPVHCPLYPGLIHRC* -1.061 0.009045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27200 VCAPADLRTSSKTNYNSVPE 20 SLAY-screened peptide P5550 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTGCGCCCCTGCTGACCTTCGCACTTCTAGCAAGACCAACTACAACTCGGTGCCCGAGTAA VCAPADLRTSSKTNYNSVPE* -1.06 0.005938 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27201 RPTSSRLMLNCIPGSYNPNW 20 SLAY-screened peptide P5551 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCTACTAGCTCTCGCCTCATGCTCAATTGTATTCCCGGGTCCTACAATCCTAACTGGTAA RPTSSRLMLNCIPGSYNPNW* -1.06 0.004022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27202 MTCVPRWGYHPIMGTPIYSR 20 SLAY-screened peptide P5552 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGACCTGCGTGCCCCGCTGGGGTTATCACCCTATCATGGGCACTCCCATTTATAGCCGTTAA MTCVPRWGYHPIMGTPIYSR* -1.06 0.003033 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27203 AAMGSNLQPEYLTPIRHPHH 20 SLAY-screened peptide P5553 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGCTATGGGGTCCAACCTTCAGCCCGAGTATCTCACGCCCATTCGGCACCCCCACCATTAA AAMGSNLQPEYLTPIRHPHH* -1.06 0.01817 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27204 WSCDMNRPISPLGYIPQYFH 20 SLAY-screened peptide P5554 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTCGTGTGACATGAACCGGCCTATCTCCCCGCTGGGCTATATCCCGCAGTACTTTCATTAA WSCDMNRPISPLGYIPQYFH* -1.06 0.009444 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27205 ATGGCDPLLYHTIWSRRIF 19 SLAY-screened peptide P5555 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACTGGTGGCTGTGACCCCCTCCTTTACCATACCATTTGGAGCAGGCGGATTTTCTAGTAA ATGGCDPLLYHTIWSRRIF** -1.06 0.002232 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27206 NHICQYRLSHRARSRKRMNR 20 SLAY-screened peptide P5556 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACCACATTTGCCAGTACCGCCTTTCGCACCGGGCGCGTAGCCGTAAGCGTATGAATCGGTAA NHICQYRLSHRARSRKRMNR* -1.06 0.019154 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27207 WNVRARLWRIALSVLHILRT 20 SLAY-screened peptide P5557 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGAATGTGCGTGCCCGCCTGTGGCGTATCGCCTTGTCCGTGCTCCACATCCTTCGTACCTAA WNVRARLWRIALSVLHILRT* -1.06 0.000303 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27208 PGNPLVIIHTFLSSSPPGTS 20 SLAY-screened peptide P5558 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGCAACCCCTTGGTCATCATCCATACCTTTCTGAGTAGCAGTCCCCCCGGTACTAGCTAA PGNPLVIIHTFLSSSPPGTS* -1.06 0.040428 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27209 CRLRPRLFRASGVRVRRGRPN 21 SLAY-screened peptide P5559 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGCTTGCGCCCGAGACTTTTTCGTGCATCCGGTGTACGCGTACGCCGTGGACGTCCTAAC CRLRPRLFRASGVRVRRGRPN -1.059 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27210 CVPVSHLG 8 SLAY-screened peptide P5560 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGTGCCGGTTAGCCATCTTGGGTAGCTCTTTATTGACGCTATCAACTTGCGGGACGTGTAA CVPVSHLG*LFIDAINLRDV* -1.059 0.006557 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27211 PVPPIHTSFPDRYTRYRSTY 20 SLAY-screened peptide P5561 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTCCCCCCGATTCATACTAGCTTTCCGGATCGCTATACTCGGTACCGGTCCACCTATTAA PVPPIHTSFPDRYTRYRSTY* -1.058 0.00406 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27212 LPPCTVAPYNSLNSRSSGHG 20 SLAY-screened peptide P5562 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCCCCCTGTACGGTTGCCCCGTATAACTCGCTCAATTCGCGTAGTAGCGGTCACGGTTAA LPPCTVAPYNSLNSRSSGHG* -1.058 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27213 CAVMCPGLHNLAHYVYPPCF 20 SLAY-screened peptide P5563 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCGGTCATGTGTCCTGGTCTGCACAATCTGGCTCATTATGTGTATCCTCCGTGTTTCTAA CAVMCPGLHNLAHYVYPPCF* -1.058 0.017721 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27214 SLSSSPRPHSFVNSLGHSMC 20 SLAY-screened peptide P5564 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCTTAGCAGTAGCCCTCGCCCCCACTCTTTTGTTAACTCTCTTGGTCATTCCATGTGTTAA SLSSSPRPHSFVNSLGHSMC* -1.058 0.006355 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27215 HQRRTNPTTPRLAMHFSMRY 20 SLAY-screened peptide P5565 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCAGCGTCGCACTAATCCGACCACGCCCCGTCTGGCTATGCATTTCTCCATGCGCTACTAA HQRRTNPTTPRLAMHFSMRY* -1.058 0.00014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27216 KQPVPSCIHKYSASLGADFL 20 SLAY-screened peptide P5566 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCAGCCTGTGCCCTCTTGTATCCATAAGTATTCGGCGTCGCTTGGCGCCGACTTTCTTTAA KQPVPSCIHKYSASLGADFL* -1.058 0.006489 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27217 DSLNQPLVRSNFMPHNQRS 19 SLAY-screened peptide P5567 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTCGCTCAATCAGCCCCTCGTTCGGTCCAACTTTATGCCCCATAACCAGCGCAGTTAGTAA DSLNQPLVRSNFMPHNQRS** -1.058 0.02709 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27218 IPASTPTNALFAHIRCLLRR 20 SLAY-screened peptide P5568 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTCCCGCCTCCACGCCCACCAACGCCCTCTTTGCCCATATCCGTTGCCTTTTGCGCCGCTAA IPASTPTNALFAHIRCLLRR* -1.058 0.010189 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27219 PVPKHFNRNLRVR 13 SLAY-screened peptide P5569 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTTCCGAAGCATTTCAATCGTAACCTTCGTGTTAGGTAGGCCGGGCTTCTTAACCCGTAA PVPKHFNRNLRVR*AGLLNP* -1.057 0.000036 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27220 RVCKAF 6 SLAY-screened peptide P5570 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGTGTGTAAGGCGTTCTAGATCATTAGTTCGTTCCTTCCTTGCAAGACCGTCATTGAGTAA RVCKAF*IISSFLPCKTVIE* -1.057 0.002301 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27221 LFSPYRWYYNYLHPTLSGAI 20 SLAY-screened peptide P5571 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTTTCCCCCTATCGTTGGTACTATAACTATCTGCATCCCACCCTGAGTGGCGCGATCTAA LFSPYRWYYNYLHPTLSGAI* -1.057 0.045281 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27222 LILNLAPLYYTVFANLSSIN 20 SLAY-screened peptide P5572 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGATTCTCAATCTGGCCCCTTTGTACTACACTGTCTTCGCGAACTTGTCCAGTATTAACTAA LILNLAPLYYTVFANLSSIN* -1.057 0.014861 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27223 CALDESRTYRDNEYLVYQWY 20 SLAY-screened peptide P5573 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTGCGTTGGATGAGTCCCGTACCTATCGGGATAACGAGTATCTTGTGTACCAGTGGTATTAA CALDESRTYRDNEYLVYQWY* -1.057 0.0062 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27224 FPYSVLLYCVEQNIGTTMPTN 21 SLAY-screened peptide P5574 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCCTTACAGTGTTCTCCTGTATTGTGTCGAGCAGAACATTGGTACTACCATGCCAACTAAC FPYSVLLYCVEQNIGTTMPTN -1.057 0.028469 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27225 SSSYTSSKGPTPMCVIRVEQ 20 SLAY-screened peptide P5575 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAGTTCTTATACCTCGAGTAAGGGTCCTACGCCTATGTGCGTGATCCGCGTTGAGCAGTAA SSSYTSSKGPTPMCVIRVEQ* -1.057 0.029188 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27226 TLNAIANCLMLIYFIFVMNL 20 SLAY-screened peptide P5576 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTCAATGCGATCGCCAATTGTCTGATGTTGATCTATTTTATTTTTGTTATGAACCTCTAA TLNAIANCLMLIYFIFVMNL* -1.057 0.016914 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27227 FRSLEALMPTNYYNDDTASA 20 SLAY-screened peptide P5577 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCGCTCTTTGGAGGCCCTTATGCCTACCAACTACTACAACGATGATACCGCGAGTGCCTAA FRSLEALMPTNYYNDDTASA* -1.057 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27228 CLSSMWKWCSIISAYNIAVV 20 SLAY-screened peptide P5578 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCTGTCCTCTATGTGGAAGTGGTGTTCGATCATTTCTGCCTACAACATCGCGGTTGTGTAA CLSSMWKWCSIISAYNIAVV* -1.057 0.000243 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27229 LHTLYYFLSRLYGFFFQVRK 20 SLAY-screened peptide P5579 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGCATACTCTGTATTACTTCTTGTCTCGCTTGTACGGCTTCTTCTTTCAGGTGCGGAAGTAA LHTLYYFLSRLYGFFFQVRK* -1.057 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27230 VSCAYICDNQYLWLFPLALL 20 SLAY-screened peptide P5580 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTCTTGCGCTTATATCTGCGACAACCAGTATCTGTGGCTCTTCCCCCTCGCTTTGCTCTAA VSCAYICDNQYLWLFPLALL* -1.057 0.002123 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27231 PYLLCVNRPVCFRVSAGALL 20 SLAY-screened peptide P5581 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTATCTCCTTTGCGTTAACCGTCCTGTTTGCTTCCGTGTCAGCGCCGGTGCTCTCCTCTAA PYLLCVNRPVCFRVSAGALL* -1.057 0.005458 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27232 TIPQRWRTFFTPCYCDPQFY 20 SLAY-screened peptide P5582 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTATCCCCCAGCGGTGGCGTACGTTTTTTACTCCTTGCTACTGTGATCCCCAGTTCTATTAA TIPQRWRTFFTPCYCDPQFY* -1.057 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27233 PTDPRALMEVAKVTRKSDDS 20 SLAY-screened peptide P5583 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTACCGACCCGCGCGCTTTGATGGAGGTGGCTAAGGTTACTAGGAAGAGCGACGATAGTTAA PTDPRALMEVAKVTRKSDDS* -1.056 0.000012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27234 HNYGCNLHTDWTDLARPEYL 20 SLAY-screened peptide P5584 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAATTACGGCTGCAACTTGCATACCGATTGGACGGATCTCGCCCGTCCTGAGTACTTGTAA HNYGCNLHTDWTDLARPEYL* -1.056 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27235 HCSTAPRFLMIMNPHYTSRI 20 SLAY-screened peptide P5585 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTGCTCTACCGCGCCTCGTTTCCTCATGATTATGAACCCTCATTACACTTCGCGGATTTAA HCSTAPRFLMIMNPHYTSRI* -1.056 0.005541 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27236 PLESMPEVSPPLCVPHPILL 20 SLAY-screened peptide P5586 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTGGAGTCTATGCCTGAGGTTTCCCCCCCGCTCTGTGTCCCTCATCCCATCCTGTTGTAA PLESMPEVSPPLCVPHPILL* -1.056 0.000031 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27237 HVSDADHSSIRFCPIFSVTL 20 SLAY-screened peptide P5587 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGTTTCCGACGCTGACCATTCTTCCATTCGCTTTTGCCCTATCTTCTCGGTTACTCTCTAA HVSDADHSSIRFCPIFSVTL* -1.056 0.000374 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27238 ACPTDIKDRGTPLLIFLRGT 20 SLAY-screened peptide P5588 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTGCCCGACCGACATTAAGGACCGTGGCACTCCGCTCTTGATCTTTCTTCGTGGGACTTAA ACPTDIKDRGTPLLIFLRGT* -1.056 0.000749 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27239 PRYIPFCFVPLDVYSESKAS 20 SLAY-screened peptide P5589 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCGGTACATTCCTTTTTGCTTCGTCCCCTTGGATGTGTATTCTGAGAGTAAGGCTAGTTAA PRYIPFCFVPLDVYSESKAS* -1.056 0.047155 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27240 VFISCKPLATNHLVVFPSSA 20 SLAY-screened peptide P5590 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTTCATTTCTTGTAAGCCTCTTGCCACGAATCATCTTGTCGTGTTCCCCTCGTCGGCGTAA VFISCKPLATNHLVVFPSSA* -1.056 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27241 AHLAYRSACQPSFFLTSVDS 20 SLAY-screened peptide P5591 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCATCTTGCCTACCGTAGTGCGTGTCAGCCTAGTTTTTTCTTGACTAGTGTTGACTCGTAA AHLAYRSACQPSFFLTSVDS* -1.055 0.031027 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27242 QRSGSFLLTTYGTVRRNFHL 20 SLAY-screened peptide P5592 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCGCTCCGGGTCCTTCCTGTTGACTACGTACGGTACCGTGAGGCGGAACTTCCATCTCTAA QRSGSFLLTTYGTVRRNFHL* -1.055 0.003435 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27243 SLCLN 5 SLAY-screened peptide P5593 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCTGTGCCTCAATTAGGCTCGCGAGTCCGTGTACCAGGTGAATATGATTATCGGGAACTAA SLCLN*ARESVYQVNMIIGN* -1.055 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27244 IYDCCMRWKNLWHSLLCSPV 20 SLAY-screened peptide P5594 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTTACGACTGCTGTATGCGCTGGAAGAACCTTTGGCACTCGCTTTTGTGCTCTCCTGTTTAA IYDCCMRWKNLWHSLLCSPV* -1.055 0.000078 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27245 FISPKVHIIYDVYKGDKNSS 20 SLAY-screened peptide P5595 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTATCTCGCCCAAGGTGCACATCATTTACGATGTGTATAAGGGTGATAAGAACTCCTCCTAA FISPKVHIIYDVYKGDKNSS* -1.055 0.000776 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27246 MQGCHSLEAMPTMTGSIISI 20 SLAY-screened peptide P5596 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCAGGGGTGTCATTCGCTGGAGGCCATGCCCACCATGACCGGCTCCATCATTTCTATTTAA MQGCHSLEAMPTMTGSIISI* -1.054 0.025849 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27247 CHDHAHSLLILGSNTHSFI 19 SLAY-screened peptide P5597 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCATGACCACGCCCACTCCCTTCTCATTCTGGGTAGTAATACGCATAGTTTTATTTAGTAA CHDHAHSLLILGSNTHSFI** -1.054 0.023417 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27248 PCEHAKLLYKIVRQYFPSF 19 SLAY-screened peptide P5598 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTGTGAGCATGCCAAGTTGCTGTACAAGATCGTCAGGCAGTATTTCCCCTCGTTTTAGTAA PCEHAKLLYKIVRQYFPSF** -1.054 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27249 IAAPIWICFDRCFSLRSATH 20 SLAY-screened peptide P5599 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCGGCCCCCATTTGGATCTGTTTTGACCGTTGTTTTAGTCTTCGGTCTGCTACTCATTAA IAAPIWICFDRCFSLRSATH* -1.054 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27250 PPLCPPVSYMLITDRLGMIP 20 SLAY-screened peptide P5600 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCGCTCTGTCCGCCCGTCTCCTACATGCTGATCACTGATCGCCTCGGCATGATCCCTTAA PPLCPPVSYMLITDRLGMIP* -1.053 0.018134 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27251 RIRDTLSNTCNKILYMTGKI 20 SLAY-screened peptide P5601 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTATCCGGGATACTCTTTCTAATACTTGTAACAAGATTTTGTATATGACTGGTAAGATTTAA RIRDTLSNTCNKILYMTGKI* -1.053 0.019273 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27252 PFDWVNGGLSCQKHRLNPAL 20 SLAY-screened peptide P5602 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTTCGACTGGGTTAATGGCGGTCTCTCCTGCCAGAAGCACCGCCTTAATCCGGCTCTGTAA PFDWVNGGLSCQKHRLNPAL* -1.053 0.000034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27253 PVRTRPTGCSFPSAFGCGYC 20 SLAY-screened peptide P5603 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGTGCGCACTCGTCCGACTGGGTGTTCTTTTCCTTCTGCTTTCGGTTGTGGCTATTGTTAA PVRTRPTGCSFPSAFGCGYC* -1.053 0.018034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27254 PCPRSLIFLT 10 SLAY-screened peptide P5604 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGTGCCCTCGGTCGTTGATTTTTCTTACCTAGTGCTGCAATACGCTGATCCGTTCTTCTTAA PCPRSLIFLT*CCNTLIRSS* -1.052 0.031445 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27255 TEDCDARKYMTYILMYHPNL 20 SLAY-screened peptide P5605 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGAGGATTGCGATGCGAGGAAGTACATGACTTATATCCTCATGTATCACCCGAATTTGTAA TEDCDARKYMTYILMYHPNL* -1.052 0.012715 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27256 CHPGLIYIPTMFQPDYNWAN 20 SLAY-screened peptide P5606 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCATCCCGGGCTTATCTATATCCCGACCATGTTTCAGCCCGATTACAACTGGGCGAATTAA CHPGLIYIPTMFQPDYNWAN* -1.052 0.00348 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27257 HNQALHTFTLLYEVVWHLGLT 21 SLAY-screened peptide P5607 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATAATCAGGCCCTGCACACTTTTACGTTATTATATGAAGTCGTCTGGCATCTAGGACTAACT HNQALHTFTLLYEVVWHLGLT -1.052 0.000713 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27258 WAPMLQSCASVHFFGDARPT 20 SLAY-screened peptide P5608 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGGCGCCCATGCTCCAGTCCTGTGCTTCCGTTCATTTTTTCGGTGACGCTCGTCCCACTTAA WAPMLQSCASVHFFGDARPT* -1.052 0.008072 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27259 AAAVSETITPLLRCCHTSCA 20 SLAY-screened peptide P5609 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCGGCGGTGAGCGAGACCATTACCCCTCTTCTCAGGTGCTGCCATACTAGTTGCGCCTAA AAAVSETITPLLRCCHTSCA* -1.052 0.049486 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27260 PALLKFFYIIASCMRAALRC 20 SLAY-screened peptide P5610 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCGCTCCTCAAGTTTTTCTATATCATTGCCAGTTGCATGCGTGCCGCGCTGCGTTGTTAA PALLKFFYIIASCMRAALRC* -1.051 0.000586 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27261 CLYLNNNRFTFYTPTFL 17 SLAY-screened peptide P5611 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCTTTACCTGAATAATAATCGTTTCACTTTTTACACTCCTACGTTTCTGTAGCAGATGTAA CLYLNNNRFTFYTPTFL*QM* -1.051 0.000227 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27262 RCTPDLTIFTHHFNAYTIALT 21 SLAY-screened peptide P5612 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGCACGCCGGATCTGACCATTTTCACTCACCACTTCAACGCCTATACAATAGCCTTAACT RCTPDLTIFTHHFNAYTIALT -1.051 0.014488 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27263 PIQWTLKALRHWYFTNRTC 19 SLAY-screened peptide P5613 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGATTCAGTGGACCCTTAAGGCCCTTAGGCACTGGTATTTTACCAACCGGACCTGTTAGTAA PIQWTLKALRHWYFTNRTC** -1.051 0.000266 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27264 TDHTTALPDATATCLYSAFT 20 SLAY-screened peptide P5614 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGACCACACCACTGCTCTGCCGGATGCTACTGCTACCTGCCTGTATTCTGCGTTCACGTAA TDHTTALPDATATCLYSAFT* -1.051 0.04233 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27265 PHGCEHNYIPLYPFFTGAFL 20 SLAY-screened peptide P5615 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCACGGCTGCGAGCACAATTACATCCCCCTTTACCCTTTTTTCACCGGTGCGTTCCTCTAA PHGCEHNYIPLYPFFTGAFL* -1.05 0.000285 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27266 SCLFASRASVPLHNMYFATI 20 SLAY-screened peptide P5616 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGCCTCTTTGCCTCCCGCGCTTCTGTCCCTCTTCACAATATGTATTTCGCTACCATCTAA SCLFASRASVPLHNMYFATI* -1.05 0.01075 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27267 DNCWDPDAYRNSANYHILLF 20 SLAY-screened peptide P5617 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATAACTGTTGGGACCCGGACGCCTACCGTAATAGCGCTAATTATCATATTCTCCTTTTCTAA DNCWDPDAYRNSANYHILLF* -1.05 0.00107 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27268 VDPLTIQYKTDNATHASMET 20 SLAY-screened peptide P5618 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGACCCTCTTACGATCCAGTACAAGACCGACAATGCTACGCACGCCTCTATGGAGACCTAA VDPLTIQYKTDNATHASMET* -1.05 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27269 TVWQILKCIYLLHCYNLFFG 20 SLAY-screened peptide P5619 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTCTGGCAGATTCTTAAGTGCATTTACCTTCTGCATTGCTATAATTTGTTCTTTGGCTAA TVWQILKCIYLLHCYNLFFG* -1.049 0.0034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27270 GFA 3 SLAY-screened peptide P5620 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTTTGCGTAGCTGCGCCTGGTCAACTGGCTTAAGCTTGCGAATGCGAAGCGCACCGGTTAA GFA*LRLVNWLKLANAKRTG* -1.049 0.024285 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27271 DCIKPQLPNLYNIVY 15 SLAY-screened peptide P5621 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTGTATTAAGCCCCAGCTGCCTAACCTCTACAACATTGTGTACTAGTGCCTTCTTGATTAA DCIKPQLPNLYNIVY*CLLD* -1.049 0.014529 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27272 EPYHPTLRYDGQHLPFTYCY 20 SLAY-screened peptide P5622 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCCGTACCACCCCACCCTTCGGTATGATGGCCAGCACTTGCCGTTCACTTATTGCTACTAA EPYHPTLRYDGQHLPFTYCY* -1.049 0.000179 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27273 TNIARTMHNYIRTTLDNNFIN 21 SLAY-screened peptide P5623 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAACATCGCGCGGACTATGCACAATTACATCCGCACTACTTTGGACAACAATTTCATTAAC TNIARTMHNYIRTTLDNNFIN -1.049 0.000032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27274 RKGYNHTLHFCILIRFEYYY 20 SLAY-screened peptide P5624 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAAGGGCTACAATCACACCCTGCACTTCTGTATCCTTATCCGGTTCGAGTACTACTACTAA RKGYNHTLHFCILIRFEYYY* -1.049 0.009608 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27275 PQDNYSAFHPYGHCMPNWSL 20 SLAY-screened peptide P5625 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCAGGATAATTACTCCGCTTTCCATCCGTATGGCCACTGCATGCCCAATTGGTCTCTGTAA PQDNYSAFHPYGHCMPNWSL* -1.049 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27276 SCRYMAPPIATDRNLTYFSM 20 SLAY-screened peptide P5626 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCTGCCGTTATATGGCTCCCCCCATTGCTACGGACCGTAACCTTACGTACTTTAGCATGTAA SCRYMAPPIATDRNLTYFSM* -1.049 0.012505 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27277 TCPNAQLPDEFLFV 14 SLAY-screened peptide P5627 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCTGTCCCAACGCTCAGCTTCCGGACGAATTCTTATTTGTATAGGCACTTGGTCAATTAACT TCPNAQLPDEFLFV*ALGQLT -1.048 0.001587 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27278 YSTQYGDGDLPVDRTESRAD 20 SLAY-screened peptide P5628 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTCTACGCAGTACGGTGACGGGGATTTGCCTGTTGACCGTACGGAGTCTCGGGCGGATTAA YSTQYGDGDLPVDRTESRAD* -1.048 0.044542 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27279 RTWSRDRDPHEPSSIFLIFL 20 SLAY-screened peptide P5629 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTACGTGGTCCCGCGACCGCGACCCCCACGAGCCTTCTAGTATCTTCCTGATCTTCCTCTAA RTWSRDRDPHEPSSIFLIFL* -1.048 0.035682 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27280 TLQGYSCVPRPNGRLHARND 20 SLAY-screened peptide P5630 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCTGCAGGGTTACTCCTGCGTGCCGCGCCCTAACGGTCGTCTCCATGCGCGCAACGATTAA TLQGYSCVPRPNGRLHARND* -1.048 0.026325 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27281 VHRATPCLSRPPGMLTQPF 19 SLAY-screened peptide P5631 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCATCGCGCCACGCCCTGCTTGAGCCGGCCGCCCGGCATGCTCACTCAGCCTTTCTAGTAA VHRATPCLSRPPGMLTQPF** -1.048 0.02764 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27282 HTVRPTVIVNCRNPSYELND 20 SLAY-screened peptide P5632 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACCGTCCGCCCGACCGTTATCGTTAATTGTCGTAATCCTAGTTACGAGCTCAATGATTAA HTVRPTVIVNCRNPSYELND* -1.047 0.000048 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27283 PLLSLSVSNLYIVLYNFLKR 20 SLAY-screened peptide P5633 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCCTTTCTCTTTCCGTCTCTAATTTGTATATCGTCCTGTATAACTTCTTGAAGAGGTAA PLLSLSVSNLYIVLYNFLKR* -1.047 0.002109 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27284 PSASSAYHRYHSRSCLLFF 19 SLAY-screened peptide P5634 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTCGGCTTCCAGTGCCTACCACCGGTATCACAGCCGGAGTTGTTTGCTCTTTTTTTAGTAA PSASSAYHRYHSRSCLLFF** -1.047 0.000108 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27285 ACFSHLTLVINSDQPIYVAL 20 SLAY-screened peptide P5635 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTGTTTCTCGCATTTGACTCTCGTCATCAACAGTGATCAGCCTATCTACGTCGCGCTTTAA ACFSHLTLVINSDQPIYVAL* -1.047 0.000786 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27286 NNYNWPFILIRAPIPRARSIN 21 SLAY-screened peptide P5636 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACAACTATAACTGGCCGTTTATCTTAATACGCGCACCCATCCCCCGCGCTCGGTCAATTAAC NNYNWPFILIRAPIPRARSIN -1.046 0.024428 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27287 PVTLLFPFRRPCSHFDAMRP 20 SLAY-screened peptide P5637 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGTCACCCTGTTGTTCCCCTTCCGGAGGCCCTGTTCGCACTTCGATGCTATGCGTCCCTAA PVTLLFPFRRPCSHFDAMRP* -1.046 0.009643 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27288 LLMRVSRCLVVYTLISMFMS 20 SLAY-screened peptide P5638 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCTGATGCGTGTTAGCAGGTGTTTGGTTGTGTACACGCTGATCTCTATGTTTATGAGTTAA LLMRVSRCLVVYTLISMFMS* -1.046 0.000668 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27289 RSTAAGTRSSSPLTWWCCIH 20 SLAY-screened peptide P5639 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCAGTACCGCTGCGGGGACCCGGTCCTCCTCTCCTCTCACCTGGTGGTGTTGCATCCACTAA RSTAAGTRSSSPLTWWCCIH* -1.046 0.000477 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27290 SFYHPSYTPLIHFVDTYHAN 20 SLAY-screened peptide P5640 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTTCTATCACCCGTCTTACACCCCCCTTATCCATTTTGTGGACACGTATCACGCTAATTAA SFYHPSYTPLIHFVDTYHAN* -1.046 0.005849 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27291 VVHNLYRRLCLLRKSDSAY 19 SLAY-screened peptide P5641 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCGTGCACAACCTCTACCGCAGGCTGTGCCTCCTCAGGAAGTCTGATTCGGCCTACTAGTAA VVHNLYRRLCLLRKSDSAY** -1.046 0.000833 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27292 LLCARKCLRLFDPYCGMWEI 20 SLAY-screened peptide P5642 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTGCTCTGTGCCCGTAAGTGCCTCAGGCTTTTTGACCCCTATTGCGGCATGTGGGAGATCTAA LLCARKCLRLFDPYCGMWEI* -1.046 0.036464 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27293 PRYYDTVNMHCLPFYWSNSR 20 SLAY-screened peptide P5643 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGTTATTATGATACGGTTAACATGCACTGCCTGCCGTTTTACTGGAGCAACTCGCGGTAA PRYYDTVNMHCLPFYWSNSR* -1.045 0.000093 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27294 LPTHAIITLTTATLECNSYV 20 SLAY-screened peptide P5644 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCTACCCATGCGATTATTACGCTGACGACTGCTACTTTGGAGTGCAATTCGTACGTCTAA LPTHAIITLTTATLECNSYV* -1.045 0.003988 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27295 VHRDINGLCIDTHDTISLII 20 SLAY-screened peptide P5645 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCACCGCGATATCAACGGCTTGTGTATTGACACGCATGATACGATTTCTTTGATTATCTAA VHRDINGLCIDTHDTISLII* -1.045 0.02626 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27296 CPAALLVRASPVLYFRPDDD 20 SLAY-screened peptide P5646 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCTGCCGCCCTTCTGGTGCGTGCCAGTCCCGTCCTGTACTTTAGGCCTGACGACGACTAA CPAALLVRASPVLYFRPDDD* -1.045 0.015901 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27297 LCCPTYSQKRSMCNHLLVEI 20 SLAY-screened peptide P5647 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTGCTGTCCCACGTACAGTCAGAAGCGCAGTATGTGCAATCACCTCCTTGTGGAGATTTAA LCCPTYSQKRSMCNHLLVEI* -1.044 0.032091 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27298 GMHYRHSRFPLRAGTCLHLV 20 SLAY-screened peptide P5648 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTATGCACTATAGGCATTCTCGGTTCCCGTTGCGTGCGGGCACTTGCCTCCACCTTGTGTAA GMHYRHSRFPLRAGTCLHLV* -1.044 0.035618 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27299 AGCQF 5 SLAY-screened peptide P5649 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGGGTGTCAGTTCTAGCCCATGTGGATTTGCCAGTTTTGTTTCCACGCGTTCTACACCTAA AGCQF*PMWICQFCFHAFYT* -1.044 0.007208 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27300 SEICKYSDLGNFLCLCRSYL 20 SLAY-screened peptide P5650 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGAGATCTGTAAGTACAGTGATCTTGGCAATTTTCTTTGCCTCTGTCGCTCCTATCTCTAA SEICKYSDLGNFLCLCRSYL* -1.044 0.000108 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27301 DPSTSMKCSPYDRILRLAKH 20 SLAY-screened peptide P5651 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCGAGTACGTCTATGAAGTGCTCTCCCTACGACAGGATTTTGCGTCTCGCGAAGCACTAA DPSTSMKCSPYDRILRLAKH* -1.044 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27302 SDPHLHMFYPAPYLCPNASF 20 SLAY-screened peptide P5652 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGACCCTCATCTTCACATGTTCTATCCCGCGCCGTATCTGTGCCCTAATGCGAGCTTCTAA SDPHLHMFYPAPYLCPNASF* -1.044 0.000911 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27303 PRDCQWASMYDVT 13 SLAY-screened peptide P5653 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCGTGACTGTCAGTGGGCCTCTATGTACGATGTTACGTAGAAGTAACTAAGATGATTTAAC PRDCQWASMYDVT*K*LR*FN -1.044 0.028447 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27304 PRLQFGYSNRDYHAFCGKFR 20 SLAY-screened peptide P5654 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCGCTTGCAGTTCGGTTATTCGAACAGGGATTATCATGCGTTCTGCGGTAAGTTCCGTTAA PRLQFGYSNRDYHAFCGKFR* -1.044 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27305 LFSNWAPFRLLTRTPTAPTCN 21 SLAY-screened peptide P5655 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTTCTCTAACTGGGCTCCCTTCCGTCTCCTCACTCGGACCCCCACGGCGCCTACTTGTAAC LFSNWAPFRLLTRTPTAPTCN -1.044 0.00148 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27306 KQDSHNLPCNPLKHLYILTTN 21 SLAY-screened peptide P5656 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCAGGATTCTCACAATTTGCCGTGTAATCCCCTCAAGCACCTTTACATACTAACTACTAAC KQDSHNLPCNPLKHLYILTTN -1.044 0.021672 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27307 PDHDYDVTCTHMFSFPYQLV 20 SLAY-screened peptide P5657 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGACCACGACTACGACGTCACCTGTACCCATATGTTTTCGTTCCCTTATCAGCTGGTTTAA PDHDYDVTCTHMFSFPYQLV* -1.044 0.040381 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27308 PRAIRCHPSIYRIPYCPHWH 20 SLAY-screened peptide P5658 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGGGCCATTAGGTGCCACCCTTCGATTTATCGTATTCCGTACTGCCCTCACTGGCACTAA PRAIRCHPSIYRIPYCPHWH* -1.043 0.041945 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27309 AYYNHGRSSYFRYNDPCSGY 20 SLAY-screened peptide P5659 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTATTATAATCATGGGCGTAGCTCGTACTTCCGCTACAATGATCCCTGCAGTGGTTACTAA AYYNHGRSSYFRYNDPCSGY* -1.043 0.01901 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27310 HTVDHGPRAPFIIMLTLPSTN 21 SLAY-screened peptide P5660 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACCGTGGACCATGGGCCTAGAGCCCCCTTCATTATAATGTTAACTTTACCATCCACTAAC HTVDHGPRAPFIIMLTLPSTN -1.043 0.000844 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27311 LNGTYENNNYRTIIPYFHFC 20 SLAY-screened peptide P5661 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTAACGGCACCTACGAGAATAATAATTACCGGACCATCATTCCGTACTTTCACTTCTGCTAA LNGTYENNNYRTIIPYFHFC* -1.043 0.000011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27312 VSDACYWPHAYYHRNESCCI 20 SLAY-screened peptide P5662 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGTCTGACGCGTGCTATTGGCCCCATGCTTACTACCACCGCAATGAGAGTTGTTGTATTTAA VSDACYWPHAYYHRNESCCI* -1.042 0.000226 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27313 CPIITWGYSMLSP 13 SLAY-screened peptide P5663 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCGATTATTACTTGGGGTTACAGTATGTTGTCGCCCTAGGGGAGGTTGTCTATGTGCTAA CPIITWGYSMLSP*GRLSMC* -1.042 0.00007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27314 RSCPGPMRSTPHLNYLNLMI 20 SLAY-screened peptide P5664 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTCGTGCCCCGGCCCGATGCGCTCTACCCCTCATCTGAATTACCTTAACTTGATGATCTAA RSCPGPMRSTPHLNYLNLMI* -1.042 0.026468 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27315 PYYTLYPGMVCHSYDMMIFP 20 SLAY-screened peptide P5665 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTACTATACGCTGTACCCCGGCATGGTTTGCCACAGTTACGACATGATGATTTTTCCTTAA PYYTLYPGMVCHSYDMMIFP* -1.042 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27316 PPTSIKCDGTDW 12 SLAY-screened peptide P5666 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCCACGAGTATCAAGTGCGACGGCACTGACTGGTAGACCAACTTCCCTTACGACAACTAA PPTSIKCDGTDW*TNFPYDN* -1.041 0.010852 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27317 SDYTPMRTYVCSVIP 15 SLAY-screened peptide P5667 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTGACTATACCCCGATGCGTACGTATGTTTGTTCGGTTATTCCCTAGATCACCTTCCTCTAA SDYTPMRTYVCSVIP*ITFL* -1.041 0.01303 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27318 NFARIRCWHYSSGMYGHSNY 20 SLAY-screened peptide P5668 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTTCGCCCGTATTCGTTGCTGGCATTATAGCAGCGGTATGTACGGTCATTCGAATTATTAA NFARIRCWHYSSGMYGHSNY* -1.041 0.041437 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27319 CDPTLPPIQLCYRCYPTLAQ 20 SLAY-screened peptide P5669 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGACCCCACGCTGCCTCCGATTCAGTTGTGTTACCGTTGCTATCCCACTTTGGCGCAGTAA CDPTLPPIQLCYRCYPTLAQ* -1.041 0.028605 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27320 TQLRPDRSPHSPHQSPTWSQ 20 SLAY-screened peptide P5670 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGCAGTTGCGGCCTGACCGCTCTCCTCATTCCCCTCACCAGAGCCCTACCTGGAGCCAGTAA TQLRPDRSPHSPHQSPTWSQ* -1.041 0.021321 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27321 WSSPDTRLFILPGVHKSVMF 20 SLAY-screened peptide P5671 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTCTTCCCCGGACACTAGGCTGTTTATCTTGCCCGGGGTTCATAAGAGTGTTATGTTTTAA WSSPDTRLFILPGVHKSVMF* -1.041 0.000392 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27322 RPCNHYMLHRSLTAVNSMIA 20 SLAY-screened peptide P5672 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGGCCCTGCAATCACTATATGCTCCATCGTTCGCTCACCGCTGTCAATTCTATGATTGCGTAA RPCNHYMLHRSLTAVNSMIA* -1.04 0.036127 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27323 DPLTKFIQLSLVNHHNDNAC 20 SLAY-screened peptide P5673 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCCTTGACGAAGTTTATCCAGCTTAGTCTTGTGAATCATCACAACGACAATGCCTGTTAA DPLTKFIQLSLVNHHNDNAC* -1.04 0.008347 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27324 PSSDNAQCFYHHNHISSSFS 20 SLAY-screened peptide P5674 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCAGCTCTGACAATGCGCAGTGTTTCTACCACCATAATCATATCTCTTCTTCTTTCTCGTAA PSSDNAQCFYHHNHISSSFS* -1.04 0.005386 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27325 LCPSISDHMIAYSINPATFY 20 SLAY-screened peptide P5675 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGCCCCTCCATTTCTGATCACATGATTGCTTATTCGATCAACCCTGCCACTTTTTACTAA LCPSISDHMIAYSINPATFY* -1.04 0.035621 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27326 LDPIYPGPVYLLLAYSRERR 20 SLAY-screened peptide P5676 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGACCCCATTTACCCGGGGCCCGTTTACTTGCTTCTCGCGTATTCTCGTGAGCGCCGCTAA LDPIYPGPVYLLLAYSRERR* -1.04 0.000068 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27327 PELLGLPNSTEPYCFSLYRL 20 SLAY-screened peptide P5677 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGAGTTGCTTGGCCTTCCCAATAGCACTGAGCCCTATTGCTTTAGTCTGTATCGTCTCTAA PELLGLPNSTEPYCFSLYRL* -1.04 0.000176 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27328 APAVNFAPC 9 SLAY-screened peptide P5678 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCTGCCGTCAATTTTGCCCCTTGCTAAGGAGCCCTTGTCTCAACGGCTGTTCTTCCTAAC APAVNFAPC*GALVSTAVLPN -1.04 0.000376 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27329 YLPLLLPFTLIPSYHNCTDF 20 SLAY-screened peptide P5679 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTTGCCTCTGCTCCTCCCTTTCACTCTTATTCCCTCTTATCACAACTGCACGGATTTTTAA YLPLLLPFTLIPSYHNCTDF* -1.04 0.000425 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27330 DRVYASPNYYSQSSFQLYSL 20 SLAY-screened peptide P5680 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCGCGTTTATGCCAGTCCCAATTATTACAGCCAGTCGAGCTTTCAGCTGTACTCTTTGTAA DRVYASPNYYSQSSFQLYSL* -1.04 0.000397 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27331 APHDPDSLFPCLCYTNHRT 19 SLAY-screened peptide P5681 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCTCATGACCCGGATTCGTTGTTCCCTTGCCTCTGTTACACTAACCACAGGACGTAGTAA APHDPDSLFPCLCYTNHRT** -1.039 0.005402 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27332 FPSTSGPVQWPFLQSRTPCL 20 SLAY-screened peptide P5682 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCCCTCTACTTCCGGGCCCGTCCAGTGGCCCTTCCTTCAGTCGCGGACCCCTTGTCTGTAA FPSTSGPVQWPFLQSRTPCL* -1.039 0.020039 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27333 NCRGALWPYIKFLYHNDNFI 20 SLAY-screened peptide P5683 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTGCCGCGGCGCTTTGTGGCCGTACATTAAGTTCCTTTATCACAATGATAACTTCATTTAA NCRGALWPYIKFLYHNDNFI* -1.039 0.034349 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27334 VTHNTFNICVTFYCRTINVS 20 SLAY-screened peptide P5684 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTACCCACAATACTTTTAATATTTGTGTCACGTTCTATTGTCGTACCATTAATGTGTCTTAA VTHNTFNICVTFYCRTINVS* -1.039 0.037793 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27335 RALMNIPDKSARCPSSPVFPN 21 SLAY-screened peptide P5685 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGCGTTGATGAACATCCCCGACAAGAGTGCACGGTGTCCGTCATCACCAGTATTTCCTAAC RALMNIPDKSARCPSSPVFPN -1.039 0.005691 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27336 VPVQLLG 7 SLAY-screened peptide P5686 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCGGTGCAGCTTCTGGGCTAGTGTGAGTCTAAGGCCCGGCAGGACACCGAGAACTATTAA VPVQLLG*CESKARQDTENY* -1.039 0.005179 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27337 APGLRYTRPCCTARYIVYQV 20 SLAY-screened peptide P5687 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCCTGGTTTGCGCTATACTCGCCCTTGTTGCACCGCCCGCTACATTGTGTACCAGGTTTAA APGLRYTRPCCTARYIVYQV* -1.038 0.013367 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27338 TTTFSPFPYRISKILALAYT 20 SLAY-screened peptide P5688 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACTACTTTTAGCCCGTTCCCCTACAGGATTTCTAAGATTCTGGCGCTTGCTTATACTTAA TTTFSPFPYRISKILALAYT* -1.038 0.024003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27339 GTDSGFLPCHIPR 13 SLAY-screened peptide P5689 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGGACGGATAGCGGCTTCCTGCCTTGCCATATCCCGCGGTAGGTCACCTATAGCATGTTGTAA GTDSGFLPCHIPR*VTYSML* -1.037 0.000014 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27340 AQPYHNLRCFPDNTHFDKSN 20 SLAY-screened peptide P5690 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCCAGCCTTATCACAATCTTCGTTGTTTTCCTGATAATACTCATTTCGACAAGTCTAATTAA AQPYHNLRCFPDNTHFDKSN* -1.037 0.00692 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27341 TNCPDLAYSIHNPLANLPGN 20 SLAY-screened peptide P5691 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCAATTGCCCGGATCTTGCTTACTCTATTCATAATCCCCTTGCGAATCTTCCGGGTAACTAA TNCPDLAYSIHNPLANLPGN* -1.037 0.001514 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27342 PFAATSASDQYAVNFQRYAH 20 SLAY-screened peptide P5692 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTTGCCGCCACTTCTGCTAGCGATCAGTATGCGGTCAACTTCCAGCGCTACGCGCACTAA PFAATSASDQYAVNFQRYAH* -1.037 0.003111 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27343 STAYSLLAPCDHIPRYIWTH 20 SLAY-screened peptide P5693 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTACCGCGTATAGTCTTCTCGCCCCCTGCGACCACATCCCCCGCTATATCTGGACTCATTAA STAYSLLAPCDHIPRYIWTH* -1.037 0.000723 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27344 CKTAMHPAGIVIICNEFSAM 20 SLAY-screened peptide P5694 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAAGACGGCGATGCATCCTGCGGGGATCGTTATTATCTGTAACGAGTTCTCTGCGATGTAA CKTAMHPAGIVIICNEFSAM* -1.037 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27345 DFPAFRWLNSLRLRLCTLSE 20 SLAY-screened peptide P5695 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACTTCCCCGCCTTCCGGTGGCTCAATTCCCTTCGCCTCCGGCTTTGCACGCTTTCCGAGTAA DFPAFRWLNSLRLRLCTLSE* -1.037 0.00006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27346 PPCRTPYIPPRALNLELI 18 SLAY-screened peptide P5696 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCTGCCGCACCCCCTACATCCCTCCGCGTGCGCTTAATCTTGAGCTTATCTAGGTCTAA PPCRTPYIPPRALNLELI*V* -1.037 0.003049 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27347 KYACGYI 7 SLAY-screened peptide P5697 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGTACGCTTGTGGGTACATCTAGATGAATCATAACGCTAATCACCCCAATATTCGCTACTAA KYACGYI*MNHNANHPNIRY* -1.037 0.000132 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27348 RARHAPWRRRCICYRNPSPK 20 SLAY-screened peptide P5698 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCGCCCGGCACGCCCCCTGGCGGCGCCGCTGTATCTGCTATAGGAACCCGTCGCCCAAGTAA RARHAPWRRRCICYRNPSPK* -1.037 0.001386 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27349 ATSVPCSFPLYTASNYYITQ 20 SLAY-screened peptide P5699 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACTTCGGTGCCCTGTAGCTTTCCCTTGTATACGGCTTCGAATTATTACATTACGCAGTAA ATSVPCSFPLYTASNYYITQ* -1.036 0.005617 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27350 QHASSHHYRACR 12 SLAY-screened peptide P5700 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCATGCTTCCAGCCACCACTACAGGGCCTGCCGTTAGTTTTGCTCTCGGCTTACCGCTTAA QHASSHHYRACR*FCSRLTA* -1.036 0.000102 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27351 PPANRNSDLNTSNYCWCQYA 20 SLAY-screened peptide P5701 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCGCGAATCGTAACTCCGACCTTAACACCAGCAATTATTGTTGGTGTCAGTACGCTTAA PPANRNSDLNTSNYCWCQYA* -1.036 0.045244 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27352 ACPTLPWCPWITHAVGLYPI 20 SLAY-screened peptide P5702 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTGCCCGACCCTTCCGTGGTGCCCTTGGATCACCCACGCTGTCGGCTTGTACCCGATTTAA ACPTLPWCPWITHAVGLYPI* -1.036 0.011687 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27353 QPDRPSQTCTIRFPSSLVRL 20 SLAY-screened peptide P5703 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGCCGGACCGGCCTTCTCAGACTTGCACTATCAGGTTCCCGTCCTCTCTTGTCAGGCTTTAA QPDRPSQTCTIRFPSSLVRL* -1.036 0.014967 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27354 PHNGIDEFSKYDRYGDIHCL 20 SLAY-screened peptide P5704 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCACAACGGTATCGATGAGTTTAGCAAGTACGACAGGTACGGTGATATTCATTGCCTTTAA PHNGIDEFSKYDRYGDIHCL* -1.036 0.008246 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27355 PCTMAGRARHLELDQLPQQFV 21 SLAY-screened peptide P5705 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCTGCACGATGGCGGGTCGCGCCCGGCACTTGGAATTGGACCAACTGCCCCAGCAATTCGTC PCTMAGRARHLELDQLPQQFV -1.035 0.000144 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27356 DHRGTLLSDVKLGPEDRNPT 20 SLAY-screened peptide P5706 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCATAGGGGTACGCTTCTGAGCGATGTCAAGTTGGGGCCGGAGGATCGCAATCCTACGTAA DHRGTLLSDVKLGPEDRNPT* -1.035 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27357 RIITYWSALKNHFRTGSYPR 20 SLAY-screened peptide P5707 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATCATCACGTACTGGTCTGCGCTGAAGAACCACTTCAGGACGGGGAGTTATCCCAGGTAA RIITYWSALKNHFRTGSYPR* -1.035 0.005239 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27358 AGRYSSGRYHSRGGESVR 18 SLAY-screened peptide P5708 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGGCCGCTATTCTAGTGGCCGGTATCATTCTCGCGGCGGTGAGTCGGTGCGTTAGTTCTAA AGRYSSGRYHSRGGESVR*F* -1.035 0.007312 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27359 AISCDRIPFRRRTPIPQLRF 20 SLAY-screened peptide P5709 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGATTTCGTGTGATCGTATTCCCTTTCGGCGTCGCACTCCTATTCCCCAGCTTAGGTTCTAA AISCDRIPFRRRTPIPQLRF* -1.035 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27360 SAPSKYLRTLYNLVCDRAYT 20 SLAY-screened peptide P5710 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTGCTCCCTCCAAGTACCTGCGTACGTTGTATAATCTTGTTTGTGATAGGGCGTATACCTAA SAPSKYLRTLYNLVCDRAYT* -1.035 0.015532 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27361 MHSAHAPLFNCRHHLYDWSY 20 SLAY-screened peptide P5711 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCATAGTGCCCACGCCCCTCTCTTTAATTGCCGGCACCATTTGTACGACTGGAGCTACTAA MHSAHAPLFNCRHHLYDWSY* -1.035 0.001152 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27362 IYT 3 SLAY-screened peptide P5712 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCTACACCTAGGCGAGCCCCGTCTAGCTGAGTCACTGCCGGGTTACGAGCAAGGACACCTAA IYT*ASPV*LSHCRVTSKDT* -1.034 0.000912 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27363 SCTYYISRPFTFQPISNRRA 20 SLAY-screened peptide P5713 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTTGTACGTATTACATCAGTAGGCCTTTCACCTTTCAGCCGATTTCGAATCGTAGGGCTTAA SCTYYISRPFTFQPISNRRA* -1.034 0.001588 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27364 PTKLLPAIFNCDQNAFL 17 SLAY-screened peptide P5714 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCACGAAGCTTCTCCCTGCGATTTTTAATTGTGACCAGAACGCGTTTCTCTAGACGATTTAA PTKLLPAIFNCDQNAFL*TI* -1.034 0.000024 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27365 PIASTCLPERASSSTMRTSG 20 SLAY-screened peptide P5715 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATCGCCTCGACGTGTTTGCCGGAGCGCGCTTCCTCCTCCACTATGAGGACCTCCGGTTAA PIASTCLPERASSSTMRTSG* -1.034 0.003207 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27366 PPYPFTASTGSS 12 SLAY-screened peptide P5716 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTTACCCCTTTACCGCCAGTACGGGTTCCTCTTAGACCCATAAGCTCACTTCCAATTAA PPYPFTASTGSS*THKLTSN* -1.034 0.037974 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27367 LPLFSGTCMGPSPYYFNSLL 20 SLAY-screened peptide P5717 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCGCTGTTTTCCGGCACGTGCATGGGTCCGAGCCCGTACTACTTTAACAGTCTTCTGTAA LPLFSGTCMGPSPYYFNSLL* -1.033 0.007755 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27368 MYLYDNNFHYNCIRLSHSRA 20 SLAY-screened peptide P5718 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTATCTTTACGACAACAACTTTCATTATAACTGTATTCGCCTCTCTCATAGTCGTGCGTAA MYLYDNNFHYNCIRLSHSRA* -1.033 0.019663 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27369 PICAPYDTNANTVPYCILLF 20 SLAY-screened peptide P5719 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCATTTGCGCGCCGTACGACACTAATGCTAACACTGTCCCTTACTGTATTCTGCTGTTTTAA PICAPYDTNANTVPYCILLF* -1.033 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27370 TYPKPAYDHCEIFHDYHTHF 20 SLAY-screened peptide P5720 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTATCCTAAGCCCGCTTATGATCACTGTGAGATCTTTCACGACTACCACACTCATTTTTAA TYPKPAYDHCEIFHDYHTHF* -1.033 0.02322 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27371 PPVSQRAAATPNFFTAISSH 20 SLAY-screened peptide P5721 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCGGTTAGTCAGCGCGCGGCCGCCACCCCTAACTTTTTTACGGCTATTAGCTCCCATTAA PPVSQRAAATPNFFTAISSH* -1.033 0.000048 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27372 LSHSFIFQVVHRPKTCYNNK 20 SLAY-screened peptide P5722 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCGCACAGTTTCATCTTCCAGGTTGTCCACCGTCCTAAGACGTGTTACAACAACAAGTAA LSHSFIFQVVHRPKTCYNNK* -1.033 0.00097 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27373 FLTVAPSWHLLVRPAVGLVSN 21 SLAY-screened peptide P5723 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCTTACCGTTGCGCCTTCGTGGCATTTATTAGTTAGACCCGCAGTAGGACTAGTTTCTAAC FLTVAPSWHLLVRPAVGLVSN -1.032 0.0023 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27374 DPDTSPFCRSVHTLDTSKPT 20 SLAY-screened peptide P5724 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACCCGGATACTTCTCCCTTTTGTCGGTCCGTTCATACCCTCGATACCTCTAAGCCTACGTAA DPDTSPFCRSVHTLDTSKPT* -1.032 0.039011 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27375 QIKCTCPSYGYWLWPHTMTH 20 SLAY-screened peptide P5725 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGATTAAGTGCACCTGCCCGAGCTATGGCTACTGGCTTTGGCCCCACACGATGACTCATTAA QIKCTCPSYGYWLWPHTMTH* -1.031 0.000066 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27376 SKPCSRAFYPLYQAI 15 SLAY-screened peptide P5726 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGAAGCCTTGCTCGCGGGCCTTCTACCCTCTCTACCAGGCCATTTAGTTCCCCATCGCTTAA SKPCSRAFYPLYQAI*FPIA* -1.031 0.038429 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27377 VNAANPTGISYRPPLSST 18 SLAY-screened peptide P5727 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTAATGCGGCCAATCCGACTGGGATCTCCTATCGGCCTCCTCTTTCCTCTACCTAGATGTAA VNAANPTGISYRPPLSST*M* -1.031 0.001955 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27378 HIAASVGYFKFDYYNGITLQ 20 SLAY-screened peptide P5728 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACATCGCCGCCTCTGTTGGCTACTTTAAGTTTGATTATTATAATGGTATCACGCTCCAGTAA HIAASVGYFKFDYYNGITLQ* -1.031 0.034781 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27379 CLSLMCESPRYFCNWASKPP 20 SLAY-screened peptide P5729 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCTCTCTCTCATGTGCGAGAGCCCCCGTTACTTCTGTAACTGGGCCTCCAAGCCGCCTTAA CLSLMCESPRYFCNWASKPP* -1.031 0.036867 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27380 IILMLPSSYQEDARSCPTTR 20 SLAY-screened peptide P5730 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCATCCTTATGCTCCCTAGTAGTTACCAGGAGGATGCTAGGTCCTGTCCGACTACCAGGTAA IILMLPSSYQEDARSCPTTR* -1.03 0.009093 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27381 PLRFLAPLPIPMVSRRPRSRN 21 SLAY-screened peptide P5731 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCTGAGATTTTTAGCCCCACTCCCAATTCCCATGGTCAGTAGGCGTCCCCGGTCTCGTAAC PLRFLAPLPIPMVSRRPRSRN -1.03 0.006546 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27382 VPRTMYYVNTLHASNIKRRD 20 SLAY-screened peptide P5732 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCCTAGGACTATGTATTACGTCAACACTTTGCACGCTAGTAATATTAAGCGGCGTGATTAA VPRTMYYVNTLHASNIKRRD* -1.03 0.000089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27383 SHQAYVTLIDSRD 13 SLAY-screened peptide P5733 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCTCACCAGGCGTACGTGACCCTTATTGACTCCCGCGACTAGATTAAGCCCGATTTTACCTAA SHQAYVTLIDSRD*IKPDFT* -1.03 0.021032 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27384 YWFKRWNCMVISLI 14 SLAY-screened peptide P5734 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGGTTCAAGCGGTGGAATTGTATGGTTATTAGCCTCATTTAGCCCTTCTGGGACCCCTAA YWFKRWNCMVISLI*PFWDP* -1.029 0.027573 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27385 PLTYAPFVVINSPWSCLHTY 20 SLAY-screened peptide P5735 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGACCTATGCTCCTTTTGTGGTCATTAACTCGCCTTGGTCGTGTTTGCATACCTATTAA PLTYAPFVVINSPWSCLHTY* -1.028 0.039129 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27386 PGPCCCWDPLYRIPIANIA 19 SLAY-screened peptide P5736 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGGGCCTTGCTGTTGCTGGGACCCGCTTTACAGGATTCCTATTGCCAATATCGCCTAGTAA PGPCCCWDPLYRIPIANIA** -1.028 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27387 VCKLSDGVSDRYGRILLGYL 20 SLAY-screened peptide P5737 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTCTGCAAGCTTTCTGATGGTGTTTCCGACCGTTACGGCCGTATCCTGCTTGGCTACCTTTAA VCKLSDGVSDRYGRILLGYL* -1.028 0.012418 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27388 FLLFYLLRALITSCKSHLRL 20 SLAY-screened peptide P5738 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCTGTTGTTCTACCTGTTGAGGGCGCTCATCACGAGTTGTAAGTCCCACTTGCGCTTGTAA FLLFYLLRALITSCKSHLRL* -1.028 0.000129 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27389 VCAKYYPLFLFDNFQWGDKI 20 SLAY-screened peptide P5739 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTGCGCGAAGTACTATCCCCTTTTTCTCTTCGACAATTTCCAGTGGGGCGACAAGATTTAA VCAKYYPLFLFDNFQWGDKI* -1.028 0.005458 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27390 SHCNDAHVSPVNILHTCIIY 20 SLAY-screened peptide P5740 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCACTGCAACGACGCTCACGTGTCGCCCGTTAACATCCTGCATACCTGCATTATCTACTAA SHCNDAHVSPVNILHTCIIY* -1.028 0.004815 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27391 MTCLICLPFLLVSPSITRLGN 21 SLAY-screened peptide P5741 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGACCTGTCTAATTTGTCTACCCTTCCTCCTTGTGTCACCATCCATAACACGTTTGGGTAAC MTCLICLPFLLVSPSITRLGN -1.028 0.000745 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27392 EDNCLKRLYIPLHIVHFYT 19 SLAY-screened peptide P5742 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGACAATTGCTTGAAGCGCCTTTACATCCCTCTTCACATTGTTCACTTCTACACTTAGTAA EDNCLKRLYIPLHIVHFYT** -1.028 0.000037 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27393 AAMDYVCEANLKVSIVTSC 19 SLAY-screened peptide P5743 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCGCTATGGACTATGTTTGTGAGGCCAACCTCAAGGTTAGCATTGTGACCAGTTGTTAGTAA AAMDYVCEANLKVSIVTSC** -1.028 0.029881 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27394 CSTDFTLWHPLTIHQTNLAM 20 SLAY-screened peptide P5744 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAGCACCGATTTTACGCTTTGGCACCCTCTTACTATTCACCAGACTAATTTGGCCATGTAA CSTDFTLWHPLTIHQTNLAM* -1.027 0.000034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27395 HSGPSSMGSFFSDFVHSRAP 20 SLAY-screened peptide P5745 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTCGGGTCCTTCGTCCATGGGCAGCTTTTTTAGTGATTTTGTGCACTCTCGCGCGCCCTAA HSGPSSMGSFFSDFVHSRAP* -1.027 0.038056 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27396 VGGPCGILVA 10 SLAY-screened peptide P5746 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGGTGGCCCGTGTGGGATACTCGTGGCATGATCATTAATTACCGCTCGTGTAAGCCGTAAC VGGPCGILVA*SLITARVSRN -1.027 0.001379 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27397 CHYNIGSDDTCHRLYEFKLL 20 SLAY-screened peptide P5747 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCATTATAATATCGGTTCTGACGATACTTGTCACCGTTTGTACGAGTTTAAGCTGCTGTAA CHYNIGSDDTCHRLYEFKLL* -1.027 0.004147 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27398 IDAEAHQNCFLMGMCHPCIL 20 SLAY-screened peptide P5748 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGACGCTGAGGCGCACCAGAATTGTTTTCTGATGGGCATGTGCCACCCGTGTATCCTTTAA IDAEAHQNCFLMGMCHPCIL* -1.026 0.000099 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27399 GSASPLPAGPFHAPPFNFSS 20 SLAY-screened peptide P5749 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTCCGCCAGTCCTCTTCCTGCTGGCCCGTTCCATGCGCCCCCCTTTAATTTCTCTTCGTAA GSASPLPAGPFHAPPFNFSS* -1.026 0.028968 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27400 RVGETLTNFYNLLVSGCSQK 20 SLAY-screened peptide P5750 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGTCGGGGAGACCCTCACGAATTTCTATAATCTCCTGGTTTCCGGGTGCTCTCAGAAGTAA RVGETLTNFYNLLVSGCSQK* -1.026 0.000728 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27401 TALPRWYRMLRDMLLQTIPL 20 SLAY-screened peptide P5751 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGCGCTTCCGCGGTGGTACCGCATGCTGCGCGATATGCTCTTGCAGACCATTCCGCTGTAA TALPRWYRMLRDMLLQTIPL* -1.026 0.011123 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27402 HVGTAQHHPLSHTRDSNDTK 20 SLAY-screened peptide P5752 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGTTGGCACCGCGCAGCACCATCCGCTTTCTCACACTCGCGACAGCAACGACACTAAGTAA HVGTAQHHPLSHTRDSNDTK* -1.026 0.009804 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27403 CPIRAPSFVTLMTWDGGRLA 20 SLAY-screened peptide P5753 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCCTATCCGCGCCCCGTCGTTTGTTACGCTTATGACGTGGGACGGTGGCCGCCTCGCTTAA CPIRAPSFVTLMTWDGGRLA* -1.026 0.005458 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27404 PISPVFQRFYHTSPWPLNHS 20 SLAY-screened peptide P5754 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTATTTCGCCTGTGTTCCAGCGTTTTTACCACACTTCTCCGTGGCCGCTCAACCACTCCTAA PISPVFQRFYHTSPWPLNHS* -1.026 0.000274 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27405 PLIVNTAHGDNIHIIPSVLL 20 SLAY-screened peptide P5755 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTGATTGTTAATACTGCCCATGGGGATAACATCCATATTATCCCCAGTGTGTTGCTCTAA PLIVNTAHGDNIHIIPSVLL* -1.025 0.005153 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27406 TTYIYHLVLNSDLDMRCRNA 20 SLAY-screened peptide P5756 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCACCTACATCTATCACTTGGTCCTGAATTCGGACCTCGATATGCGTTGTCGCAATGCTTAA TTYIYHLVLNSDLDMRCRNA* -1.025 0.001867 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27407 LG 2 SLAY-screened peptide P5757 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCGGCTAGCCCTCCTCTCGCTTCGATTCCAACGAGGCGTACAGGGCCCATTTCCAGGCCTAA LG*PSSRFDSNEAYRAHFQA* -1.025 0.016345 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27408 IHV 3 SLAY-screened peptide P5758 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCCATGTCTAGCTTGTTTGCGATACGTACAGCGCCGCGCCCCATCGTACTCTTACTAACTGA IHV*LVCDTYSAAPHRTLTN* -1.025 0.026433 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27409 RCAIPHFSPSLPPWWCCYAT 20 SLAY-screened peptide P5759 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTTGCGCCATCCCCCATTTTTCTCCCTCTCTGCCGCCTTGGTGGTGCTGCTATGCTACCTAA RCAIPHFSPSLPPWWCCYAT* -1.025 0.034218 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27410 IALVRVSASQLTPFACAIAL 20 SLAY-screened peptide P5760 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCCCTCGTGCGTGTCTCTGCTTCCCAGCTCACCCCGTTTGCTTGCGCCATCGCCCTCTAA IALVRVSASQLTPFACAIAL* -1.025 0.025487 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27411 LLAVNMSDPLTVLTYQSRPP 20 SLAY-screened peptide P5761 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCTCGCTGTTAACATGTCTGACCCCCTGACTGTTCTGACGTATCAGTCTCGGCCCCCCTAA LLAVNMSDPLTVLTYQSRPP* -1.025 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27412 PPALKRPKEYLVIEGACLAG 20 SLAY-screened peptide P5762 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCGGCGTTGAAGAGGCCGAAGGAGTACCTGGTTATTGAGGGGGCTTGCCTCGCTGGTTAA PPALKRPKEYLVIEGACLAG* -1.024 0.000689 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27413 PHLHAPTWVPCYSYDLAPHN 20 SLAY-screened peptide P5763 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCACCTGCACGCTCCTACGTGGGTCCCGTGCTATTCCTATGATCTTGCTCCCCACAATTAA PHLHAPTWVPCYSYDLAPHN* -1.024 0.00006 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27414 TAICTFAPHSIDRNKNARLHL 21 SLAY-screened peptide P5764 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTGCGATTTGTACCTTCGCTCCGCATTCCATTGACCGCAACAAGAATGCACGACTCCACTTA TAICTFAPHSIDRNKNARLHL -1.023 0.045148 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27415 YSPLRIYICKSLHPFMDPAS 20 SLAY-screened peptide P5765 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTCCCCTCTCCGCATCTATATTTGTAAGTCCCTTCACCCGTTTATGGACCCGGCGTCGTAA YSPLRIYICKSLHPFMDPAS* -1.023 0.000149 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27416 TATVTMPDKCSFSMTPGGISN 21 SLAY-screened peptide P5766 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGCTACCGTCACCATGCCCGATAAGTGTTCCTTTAGTATGACCCCGGGGGGTATAAGTAAC TATVTMPDKCSFSMTPGGISN -1.023 0.007474 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27417 RLVIHPSPSESIPKTRGLPP 20 SLAY-screened peptide P5767 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCTCGTGATTCATCCGAGCCCGAGCGAGAGCATTCCCAAGACCAGGGGTCTCCCTCCTTAA RLVIHPSPSESIPKTRGLPP* -1.023 0.003898 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27418 LFHNDLESTDPAICLRRYYG 20 SLAY-screened peptide P5768 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTTTCCATAATGACCTTGAGAGCACCGACCCGGCGATTTGTCTTCGCCGCTATTATGGTTAA LFHNDLESTDPAICLRRYYG* -1.023 0.042572 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27419 LPSAAKNVARQSTSSHYRCFV 21 SLAY-screened peptide P5769 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCCCCTCTGCGGCGAAGAATGTTGCCCGGCAGAGTACTTCCTCTCACTACCGCTGCTTTGTA LPSAAKNVARQSTSSHYRCFV -1.022 0.001905 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27420 LCHQFSNVLCTQLTMRYIMD 20 SLAY-screened peptide P5770 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGTCACCAGTTTAGTAATGTCTTGTGCACTCAGCTTACTATGCGGTATATCATGGATTAA LCHQFSNVLCTQLTMRYIMD* -1.022 0.021789 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27421 SSPHRSCSSLPVILASNPTA 20 SLAY-screened peptide P5771 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTTCCCCCCATCGGTCGTGCTCCTCGCTGCCGGTCATCTTGGCCTCGAACCCGACCGCGTAA SSPHRSCSSLPVILASNPTA* -1.022 0.000276 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27422 WLTAGSNHLPFLYWLGGCYR 20 SLAY-screened peptide P5772 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCTCACTGCCGGTTCTAATCATCTGCCGTTCTTGTACTGGCTGGGCGGCTGCTACCGTTAA WLTAGSNHLPFLYWLGGCYR* -1.022 0.000307 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27423 CLWHYYSLFANVDDGIINSF 20 SLAY-screened peptide P5773 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTTGTGGCACTATTACTCCCTGTTCGCCAATGTCGATGATGGCATTATTAACAGTTTCTAA CLWHYYSLFANVDDGIINSF* -1.022 0.021297 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27424 GKWCTPLPALFVIDFKEMTK 20 SLAY-screened peptide P5774 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGCAAGTGGTGCACGCCGCTGCCCGCGTTGTTTGTGATTGATTTTAAGGAGATGACTAAGTAA GKWCTPLPALFVIDFKEMTK* -1.022 0.013173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27425 CPRILSPYWLYSTLTSNAHK 20 SLAY-screened peptide P5775 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTCCCCGGATTCTTAGCCCTTATTGGCTCTACAGTACTCTCACGTCGAATGCGCACAAGTAA CPRILSPYWLYSTLTSNAHK* -1.022 0.045395 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27426 FSHNYARFKVCLMLPNLLSD 20 SLAY-screened peptide P5776 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCAGTCATAATTATGCCAGGTTTAAGGTCTGCCTTATGCTGCCCAACCTTCTGTCGGATTAA FSHNYARFKVCLMLPNLLSD* -1.022 0.004529 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27427 AFPIMPTYQRSFFTSYFYAI 20 SLAY-screened peptide P5777 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGTTCCCTATTATGCCTACGTATCAGCGCTCTTTTTTTACCTCTTATTTTTATGCTATTTAA AFPIMPTYQRSFFTSYFYAI* -1.021 0.006572 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27428 FAYALL 6 SLAY-screened peptide P5778 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCGCCTACGCCCTGCTTTAGAACCATCTGAAGAAGATTGTTTTTGGCTCTCACTCTTCCTAA FAYALL*NHLKKIVFGSHSS* -1.021 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27429 APALLTLSLSTVLLIIVWCLN 21 SLAY-screened peptide P5779 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCCCGCCTTACTTACACTTAGCCTATCGACCGTCCTCTTGATTATCGTGTGGTGTCTTAAC APALLTLSLSTVLLIIVWCLN -1.021 0.010422 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27430 HCLNGLRKTILYPTSLVTDL 20 SLAY-screened peptide P5780 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTGTCTTAACGGTTTGCGGAAGACGATTCTGTATCCCACTAGCCTTGTCACCGATTTGTAA HCLNGLRKTILYPTSLVTDL* -1.021 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27431 GRCTDPSSCIKNLVKCLWTK 20 SLAY-screened peptide P5781 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTAGGTGCACCGATCCTAGCTCGTGCATCAAGAATCTCGTTAAGTGTCTCTGGACGAAGTAA GRCTDPSSCIKNLVKCLWTK* -1.021 0.00089 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27432 FGGYRDYDHSQQSKRT 16 SLAY-screened peptide P5782 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTGGTGGTTATCGTGACTACGACCATTCTCAGCAGAGTAAGCGCACTTGACGCGCTTGTAAC FGGYRDYDHSQQSKRT*RACN -1.021 0.001194 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27433 RKFRRLYMSYPQYCPHYDDY 20 SLAY-screened peptide P5783 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAAGTTTCGGAGGCTGTACATGAGCTATCCCCAGTATTGCCCGCATTATGACGACTACTAA RKFRRLYMSYPQYCPHYDDY* -1.02 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27434 EHFEKTSNSPCFILSWPSIA 20 SLAY-screened peptide P5784 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGCACTTTGAGAAGACCTCCAACTCCCCCTGTTTCATTCTCAGTTGGCCGTCCATCGCGTAA EHFEKTSNSPCFILSWPSIA* -1.02 0.001016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27435 TTPGCYLALFLRTLSNSHYN 20 SLAY-screened peptide P5785 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTACGCCCGGCTGTTATCTTGCCCTTTTTCTTCGCACGCTGAGTAATTCGCATTACAACTAA TTPGCYLALFLRTLSNSHYN* -1.02 0.008648 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27436 LTPHLSGDNSHAVTSKTWSI 20 SLAY-screened peptide P5786 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTACTCCGCATCTTAGCGGGGATAACAGCCACGCTGTTACGAGTAAGACCTGGAGTATTTAA LTPHLSGDNSHAVTSKTWSI* -1.02 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27437 PAPFIFRHWCDNTLY 15 SLAY-screened peptide P5787 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTGCGCCGTTCATCTTTCGTCACTGGTGCGATAATACCCTTTACTAGGCCGCTCTTACCTAA PAPFIFRHWCDNTLY*AALT* -1.02 0.001245 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27438 LEILPARNNVAPCYLLLVRT 20 SLAY-screened peptide P5788 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGAGATTCTGCCCGCTCGCAACAACGTCGCCCCTTGTTACCTCTTGCTCGTCCGTACTTAA LEILPARNNVAPCYLLLVRT* -1.02 0.00777 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27439 SNNSSHPLLGRRIYSYFSLG 20 SLAY-screened peptide P5789 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCAATAACTCCTCCCATCCTCTGCTCGGGCGCCGGATTTATTCCTATTTTTCCCTTGGTTAA SNNSSHPLLGRRIYSYFSLG* -1.02 0.009087 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27440 TPGGEHLHRPRGPPIRNEKM 20 SLAY-screened peptide P5790 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCGGGTGGTGAGCATCTGCACAGGCCCCGGGGCCCCCCCATCCGTAACGAGAAGATGTAA TPGGEHLHRPRGPPIRNEKM* -1.019 0.000001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27441 PPLYNATAGRILPEALVRFV 20 SLAY-screened peptide P5791 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCCCCTCTACAACGCGACCGCCGGCCGTATTTTGCCTGAGGCCCTTGTTCGCTTCGTCTAA PPLYNATAGRILPEALVRFV* -1.019 0.002633 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27442 PGARAKDWCLYPTYPPNIAS 20 SLAY-screened peptide P5792 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGGTGCCCGCGCCAAGGACTGGTGCTTGTACCCCACCTACCCCCCGAACATCGCTAGTTAA PGARAKDWCLYPTYPPNIAS* -1.019 0.005727 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27443 VGRVPFSCKSIWPQLWVALFN 21 SLAY-screened peptide P5793 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTGGCCGCGTTCCTTTCTCTTGTAAGTCGATCTGGCCGCAGCTCTGGGTCGCACTCTTTAAC VGRVPFSCKSIWPQLWVALFN -1.018 0.01752 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27444 NSSNKDGYNHSRSYICHSYN 20 SLAY-screened peptide P5794 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAACTCCTCTAATAAGGATGGCTACAACCATAGCCGTTCCTACATCTGTCACAGCTATAACTAA NSSNKDGYNHSRSYICHSYN* -1.018 0.048354 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27445 TNPASYCSPVGWRLIRNVDA 20 SLAY-screened peptide P5795 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTAACCCGGCTAGTTATTGTTCTCCCGTCGGGTGGCGCCTGATCCGTAATGTTGATGCTTAA TNPASYCSPVGWRLIRNVDA* -1.018 0.000708 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27446 SLSILRDELVTRVT 14 SLAY-screened peptide P5796 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCCTTAGTATCCTTCGCGATGAATTGGTAACACGTGTGACCTGAGTACTATGGTTGGTTAAC SLSILRDELVTRVT*VLWLVN -1.018 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27447 TVQNNNTGLR 10 SLAY-screened peptide P5797 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCGTCCAGAATAACAATACTGGGCTGCGTTAGCTGAGCCGCTATTACAACCATAATCTCTAA TVQNNNTGLR*LSRYYNHNL* -1.018 0.004329 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27448 RIHTYATSLFPMHILTGFDT 20 SLAY-screened peptide P5798 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCATTCATACCTACGCTACTTCGTTGTTCCCGATGCATATCCTGACGGGTTTTGATACGTAA RIHTYATSLFPMHILTGFDT* -1.018 0.000005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27449 HTPLLPYVDYAHYFYERSPN 20 SLAY-screened peptide P5799 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACACGCCGCTGCTTCCCTATGTCGATTACGCTCACTATTTTTACGAGCGTAGTCCGAATTAA HTPLLPYVDYAHYFYERSPN* -1.017 0.001858 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27450 ATRSSGHLDLPFGSNVMLDL 20 SLAY-screened peptide P5800 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCACCAGGTCCAGCGGTCACCTCGATCTCCCCTTTGGCTCCAACGTTATGCTGGACCTTTAA ATRSSGHLDLPFGSNVMLDL* -1.017 0.007259 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27451 RGKRDLMQIRKKILTKMCDN 20 SLAY-screened peptide P5801 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTGGCAAGCGCGATCTGATGCAGATCCGGAAGAAGATTCTTACTAAGATGTGTGATAACTAA RGKRDLMQIRKKILTKMCDN* -1.017 0.042825 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27452 TQVCCNLVYCQYPDHYLHRL 20 SLAY-screened peptide P5802 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCAGGTCTGTTGTAATCTGGTTTATTGTCAGTACCCTGATCATTACCTGCATCGGCTGTAA TQVCCNLVYCQYPDHYLHRL* -1.017 0.005816 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27453 NLRPDAARDFCTCHFML 17 SLAY-screened peptide P5803 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTTGCGCCCGGATGCTGCGCGCGATTTCTGTACGTGCCACTTCATGCTCTAGCTCGCGTAA NLRPDAARDFCTCHFML*LA* -1.016 0.040802 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27454 LCGSTAHVRKYSTNMPIIHL 20 SLAY-screened peptide P5804 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTGCGGGAGTACTGCGCATGTGAGGAAGTACTCTACGAATATGCCCATTATTCATTTGTAA LCGSTAHVRKYSTNMPIIHL* -1.016 0.006575 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27455 RFPTDHSPCISFQLVKLLYI 20 SLAY-screened peptide P5805 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTTTCCTACCGACCATTCGCCTTGTATCTCCTTTCAGCTCGTTAAGCTTCTTTATATCTAA RFPTDHSPCISFQLVKLLYI* -1.016 0.007626 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27456 ADTLPGCTMTPCHAWLSYCI 20 SLAY-screened peptide P5806 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGGACACCCTCCCCGGCTGTACTATGACGCCCTGCCACGCCTGGCTCTCTTATTGTATTTAA ADTLPGCTMTPCHAWLSYCI* -1.016 0.007835 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27457 AYHRPCNESTYYSFPVSYVC 20 SLAY-screened peptide P5807 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTACCACCGGCCTTGCAACGAGTCGACGTATTACTCCTTCCCTGTCTCTTACGTTTGTTAA AYHRPCNESTYYSFPVSYVC* -1.016 0.007627 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27458 HLHIRWTARKGHTTSNRTRP 20 SLAY-screened peptide P5808 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATCTCCACATCCGGTGGACTGCCCGTAAGGGCCACACCACGTCGAATAGGACTCGCCCGTAA HLHIRWTARKGHTTSNRTRP* -1.016 0.000307 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27459 DPNHLARLLRWAKIRFLDRP 20 SLAY-screened peptide P5809 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATCCTAATCACCTCGCGCGTCTTCTGAGGTGGGCGAAGATTCGGTTCCTTGATAGGCCCTAA DPNHLARLLRWAKIRFLDRP* -1.016 0.005153 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27460 PHAKGSSDHHKTPNPSAAKR 20 SLAY-screened peptide P5810 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCATGCTAAGGGCTCCTCTGACCATCATAAGACGCCCAACCCCTCTGCTGCTAAGCGCTAA PHAKGSSDHHKTPNPSAAKR* -1.015 0.006701 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27461 IAHPLCPSRSSVAGFSASALT 21 SLAY-screened peptide P5811 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATTGCGCATCCACTTTGTCCATCTAGAAGCTCCGTCGCGGGTTTCAGCGCCTCCGCGCTAACT IAHPLCPSRSSVAGFSASALT -1.015 0.000456 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27462 VCCAALSCFYRLISATTTNTN 21 SLAY-screened peptide P5812 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTTGTTGCGCTGCCTTGTCGTGTTTTTACCGGCTGATTAGTGCTACGACTACCAACACTAAC VCCAALSCFYRLISATTTNTN -1.015 0.007101 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27463 HVLIFTLLRLSRRPILPN 18 SLAY-screened peptide P5813 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGTGCTCATTTTTACTTTACTAAGATTAAGTCGGCGGCCAATACTACCTAACTGAGTAAGT HVLIFTLLRLSRRPILPN*VS -1.015 0.005859 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27464 VQTSIFHLVTEHHLSIRFSD 20 SLAY-screened peptide P5814 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTGCAGACGAGCATTTTCCATTTGGTCACTGAGCATCATTTGTCTATCAGGTTCAGTGATTAA VQTSIFHLVTEHHLSIRFSD* -1.015 0.000007 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27465 CARASPCPCDFFWSQDYFLT 20 SLAY-screened peptide P5815 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCGCCCGGGCTAGCCCCTGTCCGTGCGACTTTTTCTGGAGCCAGGATTACTTCCTGACCTAA CARASPCPCDFFWSQDYFLT* -1.015 0.041383 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27466 RYRLPIYFVSANRCVQSLLR 20 SLAY-screened peptide P5816 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTACCGCCTTCCGATCTATTTTGTCTCGGCGAATCGCTGCGTTCAGTCTCTTCTTCGGTAA RYRLPIYFVSANRCVQSLLR* -1.015 0.005666 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27467 GGPHNRLIPTDPSYLIIMLK 20 SLAY-screened peptide P5817 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTGGCCCTCACAACCGCCTTATTCCTACGGACCCGTCCTATTTGATCATTATGCTTAAGTAA GGPHNRLIPTDPSYLIIMLK* -1.015 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27468 DVTRTIYNSVTICKNPALPS 20 SLAY-screened peptide P5818 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATGTCACTCGTACGATTTATAATAGCGTCACCATTTGCAAGAACCCTGCGTTGCCCTCCTAA DVTRTIYNSVTICKNPALPS* -1.014 0.013553 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27469 CSNYPDRNLMSDMNLRQNSP 20 SLAY-screened peptide P5819 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAGTAACTATCCCGATCGTAATCTGATGTCGGATATGAACCTCCGCCAGAATAGTCCCTAA CSNYPDRNLMSDMNLRQNSP* -1.014 0.000016 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27470 SWLCPNLPHADWRLNQMLIG 20 SLAY-screened peptide P5820 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGTGGCTTTGTCCCAACCTCCCCCACGCCGACTGGCGCCTCAATCAGATGCTGATTGGGTAA SWLCPNLPHADWRLNQMLIG* -1.014 0.007521 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27471 LPGKQPQPHHDNL 13 SLAY-screened peptide P5821 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTCCCGGTAAGCAGCCCCAGCCCCATCATGACAACCTCTAGTACTCCAAGCGGAACCGTTAA LPGKQPQPHHDNL*YSKRNR* -1.014 0.016037 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27472 TPYCAGLSRHRSRIFNYYT 19 SLAY-screened peptide P5822 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCCGTATTGTGCTGGCCTTTCCCGCCATAGGAGCCGCATTTTTAATTATTACACCTAGTAA TPYCAGLSRHRSRIFNYYT** -1.013 0.00958 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27473 YTNDYSCPNQAHPWNKDYII 20 SLAY-screened peptide P5823 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACACCAATGATTATAGCTGTCCGAACCAGGCCCATCCCTGGAATAAGGATTACATCATTTAA YTNDYSCPNQAHPWNKDYII* -1.013 0.029342 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27474 KHAESMLRSR 10 SLAY-screened peptide P5824 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCATGCCGAGTCCATGCTTAGGTCCAGGTGATCACGGACTCTGTTTCCACCCAGTTGTAAC KHAESMLRSR*SRTLFPPSCN -1.013 0.004393 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27475 AFTGGHPCFIHIISHEPYLL 20 SLAY-screened peptide P5825 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCCTTCACTGGTGGTCACCCCTGCTTTATCCACATTATTAGTCACGAGCCGTATTTGCTCTAA AFTGGHPCFIHIISHEPYLL* -1.013 0.000132 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27476 HTPFRRPFNSLCCVDKCSYT 20 SLAY-screened peptide P5826 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATACGCCCTTTCGTAGGCCCTTCAACTCTCTTTGTTGCGTCGACAAGTGTAGTTACACTTAA HTPFRRPFNSLCCVDKCSYT* -1.013 0.022387 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27477 SRSLYSIVRRLLLVTANFFG 20 SLAY-screened peptide P5827 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGCGTTCCCTCTATTCTATTGTTCGCCGTCTCCTTCTGGTCACGGCCAACTTTTTCGGCTAA SRSLYSIVRRLLLVTANFFG* -1.013 0.002146 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27478 LTFPEMCPCLTY 12 SLAY-screened peptide P5828 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCACGTTTCCTGAGATGTGCCCGTGCCTGACCTATTAGGTTCAGGTGAGCCCTACCCTCTAA LTFPEMCPCLTY*VQVSPTL* -1.013 0.003042 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27479 HADGSILRRCVDWPALTFISN 21 SLAY-screened peptide P5829 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATGCGGATGGTTCTATTCTGCGTCGTTGTGTGGACTGGCCGGCCCTTACGTTTATCTCTAAC HADGSILRRCVDWPALTFISN -1.013 0.000004 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27480 LACVFLFTPKTRHDCNFSRF 20 SLAY-screened peptide P5830 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTTGCGTGTGTCTTTCTTTTTACCCCGAAGACCCGCCACGATTGTAATTTCTCTAGGTTTTAA LACVFLFTPKTRHDCNFSRF* -1.013 0.010636 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27481 RSDRPTSNFTFARPSCALHD 20 SLAY-screened peptide P5831 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTCGGATAGGCCCACCTCGAACTTCACGTTCGCCCGCCCCTCTTGCGCTCTGCACGATTAA RSDRPTSNFTFARPSCALHD* -1.013 0.00438 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27482 YLTPSWSIWI 10 SLAY-screened peptide P5832 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCTTACTCCTTCCTGGAGTATCTGGATTTAGCATATGCCCCGTAGTCTGGCTTAGGGTTAA YLTPSWSIWI*HMPRSLA*G* -1.013 0.04389 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27483 CTCPNRPRCYSRATTRVLIS 20 SLAY-screened peptide P5833 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTACCTGTCCTAATAGGCCCAGGTGTTACTCTCGGGCTACTACCCGTGTGCTTATTTCTTAA CTCPNRPRCYSRATTRVLIS* -1.013 0.001598 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27484 PVNTVPCLILNYADLFLARV 20 SLAY-screened peptide P5834 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGGTTAACACGGTTCCCTGTCTGATTCTGAACTATGCCGATCTGTTCCTCGCCAGGGTCTAA PVNTVPCLILNYADLFLARV* -1.012 0.000768 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27485 PNNAGLTRLLSFILLGIVLTN 21 SLAY-screened peptide P5835 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTAACAATGCCGGGTTAACCAGACTTCTTAGCTTTATACTGCTAGGAATTGTTTTGACTAAC PNNAGLTRLLSFILLGIVLTN -1.012 0.00001 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27486 CRPMTYNHPYYDVISEDNEV 20 SLAY-screened peptide P5836 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGTCCGATGACGTATAATCATCCGTACTATGACGTCATCTCTGAGGACAACGAGGTCTAA CRPMTYNHPYYDVISEDNEV* -1.012 0.000002 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27487 RPPCYFITPLSHWTSGVPNI 20 SLAY-screened peptide P5837 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCCTCCCTGTTATTTCATTACGCCCCTTTCCCACTGGACTAGCGGCGTTCCCAACATTTAA RPPCYFITPLSHWTSGVPNI* -1.012 0.006316 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27488 SYRLDSQIITYRTNPFSDPP 20 SLAY-screened peptide P5838 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCTATCGCCTGGATAGTCAGATCATTACGTATAGGACTAATCCTTTCAGTGATCCCCCTTAA SYRLDSQIITYRTNPFSDPP* -1.011 0.000352 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27489 CYSLDAHNIAHANCWHICCV 20 SLAY-screened peptide P5839 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCTATTCTCTCGACGCCCACAACATTGCTCATGCGAATTGCTGGCATATCTGCTGTGTCTAA CYSLDAHNIAHANCWHICCV* -1.011 0.035197 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27490 HFWYTLPMFNRCIYCSSCYL 20 SLAY-screened peptide P5840 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACATTTTTGGTATACCCTGCCGATGTTTAACCGGTGTATCTACTGTTCGTCCTGCTACTTGTAA HFWYTLPMFNRCIYCSSCYL* -1.011 0.000145 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27491 SHDVNQWLPDTKIPTCIYYL 20 SLAY-screened peptide P5841 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGTCATGACGTCAATCAGTGGCTCCCTGACACGAAGATCCCTACTTGCATTTACTACCTTTAA SHDVNQWLPDTKIPTCIYYL* -1.011 0.029426 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27492 PLPHPCWIEHGNSSPLNWLI 20 SLAY-screened peptide P5842 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTTGCCGCACCCCTGTTGGATCGAGCACGGCAACAGCTCGCCTCTCAACTGGCTCATTTAA PLPHPCWIEHGNSSPLNWLI* -1.011 0.026332 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27493 CRCSPRSIRLISALTSALPRN 21 SLAY-screened peptide P5843 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGCCGTTGCAGCCCGCGCTCCATCCGCCTAATCTCGGCCCTGACTAGTGCCCTACCCCGTAAC CRCSPRSIRLISALTSALPRN -1.011 0.005859 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27494 PYSVTS 6 SLAY-screened peptide P5844 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTTACTCTGTCACTTCTTAGTGGTGTAACATTGCCAGTGCCACCCACCGCTGTATTTTTTAA PYSVTS*WCNIASATHRCIF* -1.011 0.007475 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27495 APRPRVRWPCYPLHLFCLSHS 21 SLAY-screened peptide P5845 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTCCCCGGCCCCGCGTCAGGTGGCCGTGCTACCCCCTGCACCTCTTTTGCCTTAGCCACTCT APRPRVRWPCYPLHLFCLSHS -1.011 0.000081 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27496 VHVCPRNAVTPWRFTSMYGL 20 SLAY-screened peptide P5846 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGTTCACGTTTGCCCGCGGAACGCGGTCACGCCTTGGCGCTTTACCTCTATGTACGGCCTTTAA VHVCPRNAVTPWRFTSMYGL* -1.01 0.003466 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27497 LSLNFSAPQSFNCTLTSGTAN 21 SLAY-screened peptide P5847 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTGTCTCTCAATTTTAGTGCGCCTCAGAGCTTCAATTGTACTCTCACCTCTGGTACAGCTAAC LSLNFSAPQSFNCTLTSGTAN -1.01 0.000028 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27498 GYYPIQCQVDPRFVQGLMIP 20 SLAY-screened peptide P5848 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGGTTATTACCCTATTCAGTGTCAGGTCGATCCCCGGTTTGTCCAGGGCCTTATGATCCCCTAA GYYPIQCQVDPRFVQGLMIP* -1.01 0.001013 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27499 SDYSISLCVSIICNKYLAVR 20 SLAY-screened peptide P5849 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGACTATTCGATCTCTTTGTGCGTCTCTATCATCTGTAATAAGTACCTTGCGGTGAGGTAA SDYSISLCVSIICNKYLAVR* -1.01 0.000003 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27500 EDPAQRTLVPNIPACMGYVL 20 SLAY-screened peptide P5850 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGACCCTGCGCAGCGCACCTTGGTTCCTAATATCCCCGCCTGCATGGGTTACGTTCTCTAA EDPAQRTLVPNIPACMGYVL* -1.01 0.006373 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27501 PPADPYMHTITVCCFWSRCGN 21 SLAY-screened peptide P5851 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTGCCGATCCGTACATGCATACTATTACGGTGTGTTGTTTTTGGAGCCGTTGTGGTAAC PPADPYMHTITVCCFWSRCGN -1.01 0.000156 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27502 CSTPYLNHRSGTSPITVQAL 20 SLAY-screened peptide P5852 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGTAGTACTCCTTATCTTAACCACCGTTCTGGTACCTCTCCCATCACGGTCCAGGCGCTGTAA CSTPYLNHRSGTSPITVQAL* -1.01 0.03907 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27503 HLLGYYRRFASYLLQFFV 18 SLAY-screened peptide P5853 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACCTCCTGGGTTACTATAGGCGCTTTGCTAGTTACTTGCTTCAGTTTTTTGTGTAGGTCTAA HLLGYYRRFASYLLQFFV*V* -1.009 0.007876 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27504 ACTASSDQQFI 11 SLAY-screened peptide P5854 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTTGTACGGCGTCGAGCGACCAGCAGTTTATTTAGATTCTGATTACGAATGTGCTTACTTAA ACTASSDQQFI*ILITNVLT* -1.009 0.00022 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27505 PPMDLDPHRLSYLGYTFFWP 20 SLAY-screened peptide P5855 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCGATGGACCTTGACCCCCACCGGCTGTCTTATCTCGGGTATACCTTTTTCTGGCCTTAA PPMDLDPHRLSYLGYTFFWP* -1.009 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27506 RVPTRVCPSLPHPEESS 17 SLAY-screened peptide P5856 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGGTTCCTACCCGGGTCTGTCCCTCTCTTCCCCATCCGGAGGAGTCGTCCTAGCACCTGTAA RVPTRVCPSLPHPEESS*HL* -1.009 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27507 RYSRYPFYLSPCESTHSTIL 20 SLAY-screened peptide P5857 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCTATTCGCGTTACCCGTTCTACCTCAGTCCGTGCGAGTCTACCCATTCTACCATCCTGTAA RYSRYPFYLSPCESTHSTIL* -1.009 0.003968 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27508 DCNLMSDAPYYHANSVYTIA 20 SLAY-screened peptide P5858 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTGTAATCTCATGTCCGACGCTCCTTATTACCATGCTAACTCCGTTTACACCATCGCGTAA DCNLMSDAPYYHANSVYTIA* -1.008 0.000053 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27509 HSVKYQGQAMPMLNWGSSTR 20 SLAY-screened peptide P5859 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACAGCGTGAAGTACCAGGGCCAGGCCATGCCTATGTTGAACTGGGGTAGTAGCACGCGTTAA HSVKYQGQAMPMLNWGSSTR* -1.008 0.000608 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27510 MSFYVPTIHATPHHRNVV 18 SLAY-screened peptide P5860 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTCCTTTTATGTCCCCACGATCCATGCTACGCCGCATCATCGCAACGTGGTCTAGACTTAA MSFYVPTIHATPHHRNVV*T* -1.008 0.011549 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27511 LSRVQVATST 10 SLAY-screened peptide P5861 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACTCTCCAGGGTCCAGGTCGCCACCAGCACTTAGATGGTGCTTGCTAGCTATTTGCCCCATTAA LSRVQVATST*MVLASYLPH* -1.008 0.026863 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27512 KGSPDVGVVPRWRAVSNWTL 20 SLAY-screened peptide P5862 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGGGGAGTCCTGACGTGGGCGTTGTGCCTCGTTGGCGCGCCGTTTCTAATTGGACTCTGTAA KGSPDVGVVPRWRAVSNWTL* -1.008 0.002983 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27513 PPHLSVVVIFSEERRDFIAK 20 SLAY-screened peptide P5863 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCTCATCTTTCGGTAGTTGTCATTTTTAGCGAGGAGCGGCGGGACTTTATTGCGAAGTAA PPHLSVVVIFSEERRDFIAK* -1.008 0.021084 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27514 TQHFCSDCCFIPGLQYLDYH 20 SLAY-screened peptide P5864 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACCCAGCATTTTTGTTCTGACTGCTGCTTTATCCCGGGCCTTCAGTACTTGGATTACCACTAA TQHFCSDCCFIPGLQYLDYH* -1.008 0.020515 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27515 FTPCLYLPLCDCPFSFYSQFL 21 SLAY-screened peptide P5865 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCACTCCCTGCCTGTACCTACCCCTCTGCGATTGCCCTTTCTCATTTTACTCTCAGTTTTTA FTPCLYLPLCDCPFSFYSQFL -1.008 0.003173 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27516 QGSFYCTPYPDYIYSHIVTP 20 SLAY-screened peptide P5866 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGGGCTCTTTTTACTGTACGCCTTATCCGGATTACATCTACTCCCATATTGTTACGCCTTAA QGSFYCTPYPDYIYSHIVTP* -1.008 0.000425 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27517 RSCRYLFEPFMTSNESSTWI 20 SLAY-screened peptide P5867 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGGTCGTGTCGCTATCTTTTTGAGCCCTTTATGACTTCCAATGAGTCTAGCACTTGGATTTAA RSCRYLFEPFMTSNESSTWI* -1.007 0.000501 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27518 RKHGQDRCMAGTHTPFYVLL 20 SLAY-screened peptide P5868 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAAGCATGGCCAGGATCGGTGCATGGCTGGTACCCATACCCCGTTCTACGTCCTGCTCTAA RKHGQDRCMAGTHTPFYVLL* -1.007 0.042943 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27519 NLNHSSSSTIPSGCARFYIA 20 SLAY-screened peptide P5869 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATTTGAACCACTCCTCTAGCAGTACCATCCCCAGTGGCTGCGCCCGGTTCTATATTGCGTAA NLNHSSSSTIPSGCARFYIA* -1.007 0.000045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27520 RNTVGHAVGPRLQVSMAANR 20 SLAY-screened peptide P5870 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTAATACGGTGGGCCATGCCGTGGGCCCGCGCCTCCAGGTCTCTATGGCCGCCAACCGCTAA RNTVGHAVGPRLQVSMAANR* -1.007 0.000008 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27521 YWNLLSKGLYLACGLISAAY 20 SLAY-screened peptide P5871 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACTGGAATCTCCTGAGCAAGGGTCTGTATTTGGCTTGTGGGCTCATCTCTGCCGCTTACTAA YWNLLSKGLYLACGLISAAY* -1.007 0.012225 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27522 RRGAGLYTTTFGADPFHQND 20 SLAY-screened peptide P5872 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGGGGTGCTGGGCTGTACACGACCACGTTTGGCGCGGATCCCTTCCACCAGAACGACTAA RRGAGLYTTTFGADPFHQND* -1.007 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27523 WHVQCCFLDYYNSSQITHRI 20 SLAY-screened peptide P5873 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGCACGTCCAGTGTTGTTTCCTGGATTATTATAACAGTTCTCAGATTACGCACCGTATTTAA WHVQCCFLDYYNSSQITHRI* -1.007 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27524 NTSHCPVQYTSLNEGLVISL 20 SLAY-screened peptide P5874 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAATACCTCCCATTGCCCTGTGCAGTACACCAGTCTGAATGAGGGTCTGGTTATCTCCTTGTAA NTSHCPVQYTSLNEGLVISL* -1.006 0.033533 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27525 ARWTPGST 8 SLAY-screened peptide P5875 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCGCGTTGGACTCCGGGTAGCACCTAGATTTCCAATTCCGACCGCTGTTTTTACATGTCTTAA ARWTPGST*ISNSDRCFYMS* -1.006 0.00416 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27526 SAKRPIYISAFHSTNNWHPP 20 SLAY-screened peptide P5876 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCTAAGAGGCCTATCTATATCAGCGCCTTCCATAGTACTAACAACTGGCATCCTCCGTAA SAKRPIYISAFHSTNNWHPP* -1.006 0 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27527 PPLLILCCAAATPNHFRATR 20 SLAY-screened peptide P5877 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCTCCTCTTCTGATTCTGTGCTGTGCCGCCGCGACGCCTAACCACTTCCGTGCCACACGTTAA PPLLILCCAAATPNHFRATR* -1.006 0.003248 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27528 RPFRVTPNIPRPYPWPCRAD 20 SLAY-screened peptide P5878 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCCTTTCAGGGTTACGCCGAACATCCCCCGTCCCTATCCCTGGCCGTGTCGTGCCGATTAA RPFRVTPNIPRPYPWPCRAD* -1.006 0.001963 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27529 SECTPHAVTRRLATYNAHEY 20 SLAY-screened peptide P5879 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGAGTGCACGCCCCATGCGGTCACCCGCCGCCTCGCCACCTATAATGCTCACGAGTACTAA SECTPHAVTRRLATYNAHEY* -1.006 0.006953 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27530 PPCMLRVPYSWRSHYVENYY 20 SLAY-screened peptide P5880 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCGCCCTGCATGCTCCGTGTTCCCTACAGCTGGCGTAGTCATTACGTTGAGAATTATTATTAA PPCMLRVPYSWRSHYVENYY* -1.006 0.002164 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27531 HGEPYHCDTHNLPIATLDRF 20 SLAY-screened peptide P5881 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACGGTGAGCCCTATCATTGTGATACGCATAACCTGCCCATCGCTACGCTGGACCGTTTTTAA HGEPYHCDTHNLPIATLDRF* -1.006 0.000019 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27532 DNSPSKTNHCETYTDESDQH 20 SLAY-screened peptide P5882 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGACAACTCCCCTAGTAAGACGAACCATTGTGAGACTTACACCGATGAGTCTGACCAGCACTAA DNSPSKTNHCETYTDESDQH* -1.005 0.046828 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27533 SDPFSSLRAVLGGCLSAYLY 20 SLAY-screened peptide P5883 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCGACCCCTTTTCGTCCTTGCGGGCTGTCCTGGGCGGTTGCCTCTCCGCGTACCTCTACTAA SDPFSSLRAVLGGCLSAYLY* -1.005 0.017527 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27534 QSACWATDLRVIPFPLIGHN 20 SLAY-screened peptide P5884 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACAGTCGGCGTGTTGGGCCACTGATCTGCGGGTCATCCCCTTCCCGTTGATCGGTCATAATTAA QSACWATDLRVIPFPLIGHN* -1.005 0.004516 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27535 EASTQSHTLNSQINCILL 18 SLAY-screened peptide P5885 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGAGGCTAGTACCCAGTCCCATACGCTCAATTCTCAGATTAATTGTATCCTTCTTTAGTTCTAA EASTQSHTLNSQINCILL*F* -1.004 0.031005 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27536 MAIHDCIRLNYLRNNLCSAL 20 SLAY-screened peptide P5886 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGGCTATTCATGATTGTATTCGTTTGAACTATCTCCGCAATAATCTCTGCAGCGCGCTCTAA MAIHDCIRLNYLRNNLCSAL* -1.004 0.020181 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27537 TGINDHAHSAFFGSNTRLTS 20 SLAY-screened peptide P5887 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACGGGCATTAACGACCATGCCCACTCGGCTTTTTTTGGCTCCAACACCCGGCTGACCTCCTAA TGINDHAHSAFFGSNTRLTS* -1.004 0.033961 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27538 MRVPSFPIPFGLHTNNLGNE 20 SLAY-screened peptide P5888 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGCGCGTGCCGAGTTTTCCCATTCCCTTCGGTTTGCATACCAACAACCTGGGCAATGAGTAA MRVPSFPIPFGLHTNNLGNE* -1.003 0.000081 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27539 ADHSPTISIGRVSISVVVYY 20 SLAY-screened peptide P5889 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGCTGATCATAGCCCCACTATCTCTATTGGGCGTGTTAGTATCAGCGTTGTGGTTTACTATTAA ADHSPTISIGRVSISVVVYY* -1.003 0.006221 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27540 FLRSCVNNLFRDR 13 SLAY-screened peptide P5890 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTCCTCCGCTCGTGCGTTAATAACCTCTTTAGGGACAGGTAGTTTGCCTTCAGCCTCAGGTAA FLRSCVNNLFRDR*FAFSLR* -1.003 0.014679 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27541 MLDNRGGVPLPNSRGPYCTA 20 SLAY-screened peptide P5891 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGTTGGATAATCGTGGTGGCGTCCCGCTGCCGAACTCGAGGGGCCCTTATTGTACGGCGTAA MLDNRGGVPLPNSRGPYCTA* -1.003 0.000675 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27542 KHGIVGDLSMCISGNIS 17 SLAY-screened peptide P5892 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAAGCATGGTATTGTTGGTGACTTGAGTATGTGCATCAGTGGTAATATCAGCTAGCATTTTTAA KHGIVGDLSMCISGNIS*HF* -1.003 0.029899 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27543 PLSAAGLYEPYSSFPPFMCR 20 SLAY-screened peptide P5893 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCCTCAGCGCTGCGGGGCTTTATGAGCCCTACAGTTCGTTTCCTCCGTTTATGTGTCGTTAA PLSAAGLYEPYSSFPPFMCR* -1.002 0.000034 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27544 TCKIGMHDILQHAILIMHSP 20 SLAY-screened peptide P5894 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTTGTAAGATTGGTATGCATGACATCCTCCAGCACGCTATTCTCATCATGCACTCCCCCTAA TCKIGMHDILQHAILIMHSP* -1.002 0.020893 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27545 IKFMETFNDSIFLINHNPRN 20 SLAY-screened peptide P5895 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATCAAGTTCATGGAGACCTTCAACGATTCCATCTTCCTTATTAATCACAACCCTCGGAACTAA IKFMETFNDSIFLINHNPRN* -1.002 0.012012 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27546 RQYPTMAAPHHRSNCASALP 20 SLAY-screened peptide P5896 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGTCAGTATCCCACCATGGCTGCCCCTCATCATCGGTCGAACTGCGCTTCCGCGCTTCCTTAA RQYPTMAAPHHRSNCASALP* -1.002 0.000542 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27547 YLTHPSIECLMHHYSFHNHT 20 SLAY-screened peptide P5897 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATATTTGACCCACCCCTCTATTGAGTGCTTGATGCATCACTATTCTTTTCATAATCACACCTAA YLTHPSIECLMHHYSFHNHT* -1.002 0.00156 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27548 SPRVRSIDCWLHNKYSLY 18 SLAY-screened peptide P5898 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCCCCCCGTGTCCGTAGTATCGACTGCTGGCTCCATAACAAGTACAGCCTTTACTAGTAACTG SPRVRSIDCWLHNKYSLY**L -1.002 0.039257 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27549 FLRLIGALPQCITRPLHNPP 20 SLAY-screened peptide P5899 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATTTCTCCGTCTCATCGGTGCGCTGCCTCAGTGCATCACGCGGCCCTTGCATAACCCTCCGTAA FLRLIGALPQCITRPLHNPP* -1.002 0.006971 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27550 SAVRNPHCALDYWAGSCYCY 20 SLAY-screened peptide P5900 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAAGCGCTGTCCGTAACCCCCACTGTGCCCTGGACTACTGGGCTGGCTCGTGTTATTGTTATTAA SAVRNPHCALDYWAGSCYCY* -1.002 0.043073 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27551 WCVPVFGFATYSIYCLPFSA 20 SLAY-screened peptide P5901 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATGGTGCGTTCCGGTGTTTGGGTTCGCGACTTACTCGATCTATTGTCTTCCTTTTTCGGCCTAA WCVPVFGFATYSIYCLPFSA* -1.001 0.02078 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27552 PDPVPWGLRFFQLPPCSRLD 20 SLAY-screened peptide P5902 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACCCGATCCTGTCCCTTGGGGGTTGCGCTTCTTCCAGCTCCCTCCGTGTTCTCGCCTTGACTAA PDPVPWGLRFFQLPPCSRLD* -1.001 0.01035 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27553 MIVPYSENYGYYLCCCALSA 20 SLAY-screened peptide P5903 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAATGATCGTGCCCTATAGTGAGAATTACGGCTATTATCTCTGTTGCTGTGCCCTTTCCGCGTAA MIVPYSENYGYYLCCCALSA* -1.001 0.015523 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27554 TRCTIMPYWDIYRSPTYIIL 20 SLAY-screened peptide P5904 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAACTCGTTGTACGATTATGCCCTACTGGGACATTTATCGTTCGCCCACCTACATCATTCTCTAA TRCTIMPYWDIYRSPTYIIL* -1.001 0.001136 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27555 SAVPLINFPNHNNSLIIFIH 20 SLAY-screened peptide P5905 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATCGGCGGTCCCGCTCATCAATTTTCCGAATCATAATAACTCGTTGATCATCTTTATTCATTAA SAVPLINFPNHNNSLIIFIH* -1.001 0.048531 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27556 RRPCYSSYYLFM 12 SLAY-screened peptide P5906 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACGCCGCCCTTGCTATAGCAGCTATTACCTCTTTATGTAGGGCCCGGCCAATTTCGCTTATTAA RRPCYSSYYLFM*GPANFAY* -1.001 0.000059 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27557 DYSPEKQYTPQNNTLNCLVV 20 SLAY-screened peptide P5907 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGAGATTATTCCCCGGAGAAGCAGTATACCCCTCAGAATAATACCCTGAATTGCTTGGTTGTTTAA DYSPEKQYTPQNNTLNCLVV* -1.001 0.018869 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27558 YHIVGYKVTYAKDNIIA 17 SLAY-screened peptide P5908 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGATACCACATTGTGGGTTATAAGGTTACGTATGCTAAGGATAACATTATCGCTTAGGCGTGTTAA YHIVGYKVTYAKDNIIA*AC* -1.001 0.031045 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively." DRAMP27559 HSFMPNCFL 9 SLAY-screened peptide P5909 Screening and prediction of SLAY Putatively-antimicrobial Linear 29307492 Cell. 2018 Jan 25;172(3):618-628.e13. doi: 10.1016/j.cell.2017.12.009. Epub 2018 Jan 4. "Ashley T Tucker, Sean P Leonard, Cory D DuBois, Gregory A Knauf, Ashley L Cunningham, Claus O Wilke, M Stephen Trent, Bryan W Davies" Discovery of Next-Generation Antimicrobials through Bacterial Self-Screening of Surface-Displayed Peptide Libraries Candidate AMP GGAGGACACTCCTTTATGCCCAATTGCTTCCTGTAGTGCAACCGGGCTTAGGCGCGTCTTAAGTACTAA HSFMPNCFL*CNRA*ARLKY* -1 0.025977 "Batch screening of peptides using SLAY system can be achieved by first constructing a random library using random PCR primers that flank the peptide region (i), followed by collection of transformants, plasmid isolation, and subsequent transformation into a bacterial strain of interest. Next, the library is grown in culture and induced (ii). Peptides with antimicrobial activity (red) will drop out of the population (iii). Next-generation sequencing of the initial input at time zero and output (iv) at a pre-defined number of hours provides a read out of sequencing counts (v). From this information, top hits can be identified and tested. Further libraries can be constructed based on the identified top hits and the process can be repeated. Log2 fold values indicate the degree to which the peptides were removed from the population. If the remaining antimicrobial peptides after sequencing show a log2 fold change of -1 or lower, indicating they were removed from the population over the time course. lfcMLE and Padj represent log2 FoldChange MLE and p values adjusted, respectively."